Solid-Carbide Metal - Circular Saw Blades

Welcome
For more than 40 years has A. Lindemann been working as a sharpening service company in
the Ruhr area (Ruhrgebiet). As a partner for industry and handcraft we are standing side by
side with our customers to solve their sawing task.
In the beginning of 2015 we took the step from a sharpening service to a manufacturer of
saw blades. After taking over the complete circular saw blade business of the Arntz GmbH +
Co. KG we became a manufacturer for all kinds of circular saw blades for metal. The more
than 200 years old tradition of the Arntz company will live on in our products supplemented by
innovations for the ongoing changing sawing challenges of our customers.
To support our customers we will deliver all established saw blades short-term from stock. Due
to the fact that circular saw blades need an excellent service qualified personal is waiting at our
production locations, in Dortmund and Schmölln, to service your saw blades according to your
specification. Pick-up and delivery, with our own vehicles, are another service we offer to our
customers, if possible.
Constantly changing demands to the sawing technology require always new solutions for the
need of our clients. The A. Lindemann company leaves you not alone with this problem but
supports you on site with our trained team of specialists. Our circular saw blades “Made in
Germany” manufactured according to DIN/ISO 9001:2008 will solve this task to the satisfaction
of our customers worldwide.
We are pleased to satisfy your sawing requirements
Your A. Lindemann team
Catalog
Carbide-tipped Cirular Saw Blades ····························································1
Carbide- tipped Cirular Saw Blades ···························································2
MAXIMA ······························································································3
MAXIMA – 3000 ····················································································4
MAXIMA-X-PLUS ··················································································5
Carbide – tipped Circular Saw Blades for cutting steel ··································6
SPEED- JET ·······················································································7
Carbide-tipped Circular Saw Blades···························································8
Carbide- tipped Circular Saw Blades ·························································9
HM-NE-POSITVE ················································································10
HM-ME-POSITVE ················································································11
SUPER- CUT ······················································································12
MEGA- CUT ·······················································································13
TECHNO- CUT ···················································································14
HM-NE-NEGATIVE·············································································· 15
Sawblades for industrial High- Tech- Cutting ·············································16
MAXIMA AF························································································17
High Speed – Segmental Circular Saw ····················································18
Customer Service ···············································································19
Complete delivery program ····································································20
Standard program ···············································································21
Segmental Circular Saw Blades R/T SPECIAL- TOOTHING ·························22
Approximate Technical Values ································································23
Correct tooth pitch ··············································································24
Metal Circular Saw Blades up to Φ 600 mm ··············································25
Standard program ················································································26
Metall Circular Saw Blades according to DIN 1837-1838 ·····························27
Bore holes and pin holes ·······································································28
Tooth forms and tooth geometries ···························································29
Technical Recommendations ·································································30
Correct tooth pitch – optimum performance ···············································31
PVD – coatings, The secret of high lide time ·············································32
Solid- Carbide Metal – Circular Saw Blades ··············································33
Circular Friction Saw Blades ··································································34
Standard program of Circular Friction Saw Baldes ·····································35
Heavy duty – Circular Hot Saw Blades ·····················································36
Carbide-tipped Circular Saw Blades
- for cutting steel
Solid material and structurals
● Solid material
- Round, square or polygonal shaped steel bars
- Steel sheets and flat steel bars
● Structurals
- Pipes and profiles
Carbide-tipped Circular Saw Blades
- for cutting steel
Blade specifications
for solid material:
● MAXIMA
- Beams and angle-bars (L-, U- and T-shape)
● Castings
● MAXIMA-3000
● MAXIMA-RAIL
● MAXIMA-X-PLUS
● ECO-SAW
The delivery program
Carbide-tipped Circular Saw Blades
● Diameters from 250 - 2200 mm
● Designed acc. to your requirements
● Special diameters on request
● Tooth pitches for all your workpiece dimensions
for structurals:
● MAXIMA
● MAXIMA-PLUS
● ECO-SAW
● TUBE-CUTTER
● SPEED-JET
● Different blade specifications for various applications
01
02
MAXIMA
- for solid steel and structurals
MAXIMA-3000
- for solid material and heavy-wall pipes
- for fastest cutting rates
● Heavy-duty circular saw blade for the industry
● Tip seat 0°
● The Allrounder for high performance sawing machines
● Stable tooth back
● Negative tip seat angle
● Tooth shapes: triple chip or notch-ground
● Reinforced tooth back
● For materials of approx. 300 - 1400 N/mm² tensile
● Tooth shape: notch-ground
strength
● Standard sawblade design, worldwide approved
● Cutting speeds (Vc) 80 - 180 m/min
● Feed rates (fz) 0,06 - 0,16 mm/t.
● For materials of 300 - 1500 N/mm² tensile strength
● Long blade life
● Cutting speeds (Vc) 80 - 250 m/min
● Feed rates (fz) 0,08 - 0,18 mm/t.
MAXIMA-RAIL
MAXIMA-RAIL is a high performance circular saw blade for cutting hardest railway bars.
● Tooth shape: triple chip geometry
● Cutting speeds (Vc) 80 - 120 m/min
● Feed rates (fz) 0,08 - 0,12 mm/t
03
04
Carbide-tipped Circular Saw Blades for cutting steel
Type MAXIMA, MAXIMA-3000, MAXIMA-PLUS, MAXIMA-X-PLUS and MAXIMA-RAIL
Standard delivery program
MAXIMA-X-PLUS
Diameter
Cuttingwidth
Bodythickness
mm
mm
mm
40
48
50
54
60
70
250
280
315
350
3,5
3,5
4,0
4,5
2,5
2,5
3,0
3,5
19,6
22,0
24,7
27,5
16,4
18,3
20,6
22,9
15,7
17,6
19,8
22,0
14,5
16,3
18,3
20,4
13,1
14,7
16,5
18,3
11,2
12,6
14,1
15,7
360
400
420
4,5
4,5
4,5
3,5
3,5
3,5
28,3 23,6 22,6 20,9 18,8 16,2 14,1 12,6 11,3
31,4 26,2 25,1 23,3 20,9 18,0 15,7 14,0 12,6 10,5
33,0 27,5 26,4 24,4 22,0 18,8 16,5 14,7 13,2 11,0
425
450
4,5
5,0
3,5
4,0
33,4 27,8 26,7 24,7 22,3 19,1 16,7 14,8 13,4 11,1
35,3 29,5 28,3 26,2 23,6 20,2 17,7 15,7 14,1 11,8
475
500
4,5
5,0
3,5
4,0
37,3 31,1 29,8 27,6 24,9 21,3 18,7 16,6 14,9 12,4 10,7
39,3 32,7 31,4 29,1 26,2 22,4 19,6 17,5 15,7 13,1 11,2
● Minimizing the problematic wear (diffusion) of carbide tips
560
570
3,8
5,5
2,8
4,0
44,0 36,7 35,2 32,6 29,3 25,1 22,0 19,5 17,6 14,7 12,6 11,4 11,0
44,8 37,3 35,8 33,2 29,8 25,6 22,4 19,9 17,9 14,9 12,8 11,6 11,2
● Cutting speeds (Vc) 60 - 140 m/min
630
6,5
5,0
49,5 41,2 39,6 36,7 33,0 28,3 24,7 22,0 19,8 16,5 14,1 12,9 12,4 11,0
660
6,5
5,0
51,8 43,2 41,5 38,4 34,6 29,6 25,9 23,0 20,7 17,3 14,8 13,5 13,0 11,5 10,4
● Feed rates (fz) 0,06 - 0,12 mm/t.
710
6,5
5,5
55,8 46,5 44,6 41,3 37,2 31,9 27,9 24,8 22,3 18,6 15,9 14,5 13,9 12,4 11,2
760
800
830
6,5
6,5
6,5
5,0
5,0
5,0
59,7 49,7 47,8 44,2 39,8 34,1 29,8 26,5 23,9 19,9 17,1 15,5 14,9 13,3 11,9
62,8 52,4 50,3 46,5 41,9 35,9 31,4 27,9 25,1 20,9 18,0 16,3 15,7 14,0 12,6
65,2 54,3 52,2 48,3 43,5 37,3 32,6 29,0 26,1 21,7 18,6 16,9 16,3 14,5 13,0
MAXIMA-PLUS
860
8,0
6,0
67,5 56,3 54,0 50,0 45,0 38,6 33,8 30,0 27,0 22,5 19,3 17,5 16,9 15,0 13,5
910
8,0
6,0
71,5 59,6 57,2 52,9 47,6 40,8 35,7 31,8 28,6 23,8 20,4 18,6 17,9 15,9 14,3
940
960
8,0
8,0
6,0
6,0
73,8 61,5 59,1 54,7 49,2 42,2 36,9 32,8 29,5 24,6 21,1 19,2 18,5 16,4 14,8
75,4 62,8 60,3 55,9 50,3 43,1 37,7 33,5 30,2 25,1 21,5 19,6 18,8 16,8 15,1
1000
1000
1020
1020
1040
1040
1050
1060
1060
6,0
8,0
6,5
8,0
6,0
8,0
8,5
6,0
8,0
5,0
6,0
5,0
6,0
5,0
6,0
6,5
5,0
6,0
78,5
78,5
80,1
80,1
81,7
81,7
82,5
83,3
83,3
65,4
65,4
66,8
66,8
68,1
68,1
68,7
69,4
69,4
62,8
62,8
64,1
64,1
65,3
65,3
66,0
66,6
66,6
58,2
58,2
59,3
59,3
60,5
60,5
61,1
61,7
61,7
52,4
52,4
53,4
53,4
54,5
54,5
55,0
55,5
55,5
44,9
44,9
45,8
45,8
46,7
46,7
47,1
47,6
47,6
39,3
39,3
40,1
40,1
40,8
40,8
41,2
41,6
41,6
34,9
34,9
35,6
35,6
36,3
36,3
36,7
37,0
37,0
31,4
31,4
32,0
32,0
32,7
32,7
33,0
33,3
33,3
26,2
26,2
26,7
26,7
27,2
27,2
27,5
27,8
27,8
22,4
22,4
22,9
22,9
23,3
23,3
23,6
23,8
23,8
20,4
20,4
20,8
20,8
21,2
21,2
21,4
21,6
21,6
19,6
19,6
20,0
20,0
20,4
20,4
20,6
20,8
20,8
17,5
17,5
17,8
17,8
18,2
18,2
18,3
18,5
18,5
15,7
15,7
16,0
16,0
16,3
16,3
16,5
16,7
16,7
1120
1125
1150
1150
1160
1160
1250
8,0
8,0
6,5
8,0
6,5
8,5
8,0
6,0
6,0
5,0
6,0
5,5
6,5
6,0
88,0
88,4
90,3
90,3
91,1
91,1
98,2
73,3
73,6
75,3
75,3
75,9
75,9
81,8
70,4
70,7
72,3
72,3
72,9
72,9
78,5
65,2
65,4
66,9
66,9
67,5
67,5
72,7
58,6
58,9
60,2
60,2
60,7
60,7
65,4
50,3
50,5
51,6
51,6
52,1
52,1
56,1
44,0
44,2
45,2
45,2
45,6
45,6
49,1
39,1
39,3
40,1
40,1
40,5
40,5
43,6
35,2
35,3
36,1
36,1
36,4
36,4
39,3
29,3
29,5
30,1
30,1
30,4
30,4
32,7
25,1
25,2
25,8
25,8
26,0
26,0
28,0
22,8
22,9
23,5
23,5
23,7
23,7
25,5
22,0
22,1
22,6
22,6
22,8
22,8
24,5
19,5
19,6
20,1
20,1
20,2
20,2
21,8
17,6
17,7
18,1
18,1
18,2
18,2
19,6
1320
9,0
7,5
103,7 86,4 82,9 76,8 69,1 59,2 51,8 46,1 41,5 34,6 29,6 26,9 25,9 23,0 20,7
1350
1370
9,0
8,2
7,5
6,8
106,0 88,4 84,8 78,5 70,7 60,6 53,0 47,1 42,4 35,3 30,3 27,5 26,5 23,6 21,2
107,6 89,7 86,1 79,7 71,7 61,5 53,8 47,8 43,0 35,9 30,7 27,9 26,9 23,9 21,5
1430
9,0
7,0
112,3 93,6 89,8 83,2 74,9 64,2 56,2 49,9 44,9 37,4 32,1 29,2 28,1 25,0 22,5
- for solid materials made of CrNi - alloys
- for small and medium cross sections
● Tip seat 0°
● Carbide tips with special chip-guide
● Tooth shape: notch-ground
- for light and medium wall pipes and profiles
● Positive tip seat angle with specially designed tooth geometry
● Suitable for all advanced and low vibration sawing machines, such as:
FRAMAG
LINSINGER
LAZZARI
MFL
WAGNER
● For clean cutting edges and fast cutting rates
● Cutting speeds (Vc) 100 - 160 m/min
● Feed rates (fz) 0,09 - 0,15 mm/t.
Number of teeth
Tooth pitch mm
80
90
100
120 140
154 160 180
200
9,8
11,0 9,8
12,4 11,0 9,9
13,7 12,2 11,0
9,9
1470
9,0
7,0
115,5 96,2 92,4 85,5 77,0 66,0 57,7 51,3 46,2 38,5 33,0 30,0 28,9 25,7 23,1
1600
11,0
9,0
125,7 104,7 100,5 93,1 83,8 71,8 62,8 55,9 50,3 41,9 35,9 32,6 31,4 27,9 25,1
1700
12,5
10,5
133,5 111,3 106,8 98,9 89,0 76,3 66,8 59,3 53,4 44,5 38,1 34,7 33,4 29,7 26,7
Other diameters, cutting widths or tooth pitches can be delivered on special request.
05
06
SPEED-JET
Carbide-tipped Circular Saw Blades
- for cutting pipes and structurals
- for cutting non-ferrous metals
• Steel
Solid materials and structurals
• Non-ferrous metals
• Plastic
Carbide-tipped Circular Saw Blades for the use on trimming-, mitre- and table-saw machines, such as:
Berg + Schmid
Felisatti
The delivery program
Flott
Jepson
Carbide-tipped Circular Saw Blades
Makita
Ridgid
• Also for dry cutting
• Diameters from 175 - 2200 mm
• For spark free sawing
• Designed acc. to your requirements
• Recommended cutting speed (Vc) approx. 20 - 30 m/sec.
• Special diameters on request
Delivery program
• Tooth pitches for all your workpiece dimensions
Dimensions
Number of
Tooth pitch
diameter x cutting width x bore
teeth
mm
Ø 250 x 2,4 x 30,0 mm
48
16.4
Ø 300 x 2,4 x 30,0 mm
60
15,7
Ø 305 x 2,2 x 25,4 mm
60
16,0
Ø 305 x 2,2 x 25,4 mm
80
12,0
Ø 350 x 2,4 x 30,0 mm
80
13,7
Ø 355 x 2,6 x 25,4 mm
60
18,6
Ø 355 x 2,6 x 25,4 mm
72
15,5
Ø 355 x 2,6 x 25,4 mm
80
13,9
Ø 355 x 2,6 x 25,4 mm
90
12,4
Ø 400 x 3,1 x 30,0 mm
84
15,0
• Different blade specifications for various applications
Security advice:
Please follow the safety instructions of your sawing machine and the general security regulations for the
use of metal cutting tools.
07
08
Carbide-tipped Circular Saw Blades
- for cutting non-ferrous metals
• Aluminium
• Copper
• Brass
• Bronze
+ its alloys
Blade specifications
for solid material:
• HM-NE-POSITIVE
• SUPER-CUT
• SUPER-CUT-DS
• MEGA-CUT A/B/C
• TECHNO-CUT A/B/C/S
für Profile:
• HM-NE-POSITIVE
• HM-NE-NEGATIVE
• TECHNO-CUT A/B/C/S
09
HM-NE-POSITIVE
- for solid material and structurals
Hints for the right use:
1. The speed rate for AL-profiles should not be below 50 m/sec. For solid material not below 30-40 m/sec. For
harder work pieces like AL-alloys, copper, brass, bronce etc. lower speed rate should be applied.
2. Wet cooling during cutting increases the lifetime and improves the quality of cut.
3. Please take care of an absolutely firm workpiece clamping.
Diameter
mm
Width
of cut
mm
Thickness
of saw body
mm
Bore
hole
mm
175
3,0
2,0
32
200
3,2
2,2
215
3,2
250
250
250
275
3,8
3,4
3,4
3,4
280
300
300
300
300
350
350
350
370
370
400
400
No. of
pin holes
pitch circle
4/7/45 + 2/7/45
Number
of teeth
Tooth
pitch
mm
Application
36
15,3
PX
20/30
48
13,1
PW
2,2
30
60
11,3
PW
2,8
2,4
2,4
2,4
30/32/40
30/32/40
30/32/40
40
42
60
80
72
18,7
13,1
9,8
12,0
PX
PW
PW
PW
3,2
3,4
3,8
3,8
3,8
4,2
4,0
4,0
4,2
4,2
4,2
4,2
2,2
2,4
2,8
2,8
2,8
3,2
3,0
3,0
3,2
3,2
3,2
3,2
30
30/32/40/80
30/32/40
30/32/40
40
30/32/40/50
30/32/40
30/32/40
30/40/50
30/40/50
30/32/40/50/60
30/32/40
68
48
72
96
96
54
84
108
60
90
68
96
12,9
19,6
13,1
9,8
9,8
20,4
13,1
10,2
19,4
12,9
18,5
13,1
PW
PY
PX
PW
PW
PY
PX
PW
PX
PW
PY
PW
420
4,2
3,2
30
96
13,7
PW
450
500
500
500
550
600
600
600
600
600
600
600
630
630
630
630
630
4,4
5,0
4,6
4,6
5,0
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
3,4
3,8
3,6
3,6
4,0
4,0
4,0
4,0
4,0
4,0
4,0
4,0
4,0
4,0
4,0
4,0
4,0
30/40
80 72 21,8 PY
25,4/30/40/50
30/40/50
50/60/80
60/80
60/80
40/60/80
40/60/80
40/60/80
40/60/80
40/60/80
80
80
80
80
40
110
12,9
PW
100
120
100
42
54
70
72
100
120
160
42
54
70
80
120
15,7
13,1
17,2
44,9
34,9
26,9
26,2
18,8
15,7
11,8
47,1
36,6
28,3
24,7
16,5
PX
PW
PX
PZ
PZ
PZ
PZ
PY
PX
PW
PZ
PZ
PZ
PZ
PX
660
710
710
710
5,5
6,0
6,0
6,0
4,0
5,0
5,0
5,0
80
80
80
80
72
80
100
160
28,7
27,9
22,3
13,9
PZ
PZ
PY
PX
2/8/45
4/12/64 + 2/9/55
2/10/60
2/10/60
4/12/64 + 2/9/55
4/12/64/+2/9/55
4/15/80
4/12/64 + 2/15/80
4/12/64+2/12/80
4/23/120
4/23/120
4/23/120
4/23/120
4/23/120
4/23/120
4/23/120
10
SUPER-CUT
HM-NE-POSITIVE
- for solid material
- for solid material and structurals
• Copper and copper alloys
Use at automatical feed:
• Aluminium and aluminium alloys
For solid material and structurals
with a wall thickness of:
• Available saw blades Ø 400 - 2200 mm
2 - 8 mm = PW
4 - 20 mm = PX
• Specially ground chip guides provide easier
8 - 50 mm = PY
formation of curled chips
ab 50 mm = PZ
Diameter
mm
11
Width
of cut
mm
Thickness
of saw body
mm
760
760
6,5
6,5
5,0
5,0
800
800
800
6,5
6,5
6,5
5,0
5,0
5,0
850
950
950
950
950
1000
1000
1000
1100
1100
1100
1250
1250
1250
1250
1250
1300
1410
1410
1410
1520
1520
1520
1610
1610
1610
1720
1720
1720
1720
1810
1870
1870
7,0
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
8,0
8,0
8,0
8,0
8,0
8,0
10,0
9,0
9,0
10,0
9,0
9,0
12,0
11,0
11,0
14,0
14,0
12,0
12,0
17,0
17,5
17,5
6,0
6,0
6,0
6,0
6,0
6,0
6,0
6,0
6,0
6,0
6,0
6,5
6,5
6,5
6,5
6,5
6,5
7,5
7,5
7,5
7,5
7,5
7,5
9,0
9,0
9,0
10,0
10,0
10,0
10,0
11,0
11,0
11,0
2050
20,0
2200
2250
• Long service life
Bore
hole
mm
Number
of teeth
Tooth
pitch
mm
Application
80
40
72
120
33,1
19,9
PZ
PY
30/32/40
30/32/40
30/32/40
72
120
140
34,9
20,9
17,9
PZ
PY
PX
40
60
60
60
60
120
100
160
200
220
100
120
180
60
100
120
60
100
120
140
200
100
60
120
160
60
120
160
60
120
160
52
60
120
200
60
50
70
27,2
29,8
18,6
14,9
13,6
31,4
26,2
17,4
57,6
34,5
28,8
65,4
39,3
32,7
28,0
19,6
40,8
73,8
36,9
27,7
85,5
42,2
31,6
85,5
42,2
31,6
103,8
90,0
45,5
27,0
94,7
117,4
83,9
PY
PZ
PY
PX
PW
PZ
PZ
PX
12,0
68
94,7
20,0
14,0
80
86,4
20,0
15,0
60
117,8
• Cutting speeds (Vc)
for Copper 400 - 800 m/min
for Aluminium (soft) 50 - 90 m/sec
for Aluminium (hard) 15 - 70 m/sec
• Feed rates (fz)
for Copper 0,03 - 0,06 mm/t.
for Aluminium (soft) 0,06 - 0,12 mm/t.
for Aluminium (hard) 0,03 - 0,06 mm/t.
SUPER-CUT-DS
- for solid material
• Copper and copper alloys
• Aluminium and aluminium alloys
• Available saw blades Ø 400 - 2200 mm
• Specially ground chip guides provide easier
formation of curled chips
• Long service life
• With detension slots
• For low noise cutting
• Application same as „SUPER-CUT”
12
MEGA-CUT
TECHNO-CUT
- for solid material
MEGA-CUT - the Carbide-tipped Circular Saw Blade based on a Segmental Saw Blade construction toothform 2 STS.
This cutting tool combines the high cutting rates of Tungsten-Carbide with the "easy-repair" features of a
- for solid material and structurals
TECHNO-CUT the Carbide-tipped Circular Saw Blade specially designed for metal cutting in noise
dampening execution. "Spoke-like" laser slots filled with a special permanent-elastic dampening material
Segmental Saw Blade and its low-vibration / low-noise cuts.
lead to an enormous reduction of vibration and noise, particularly during cutting operations at high
MEGA-CUT is available in three different tooth geometries to cut solid material :
circumference speeds.
A - for Aluminium
TECHNO-CUT helps to reduce noise by 8-9 dB(A), in some applications even more.
B - for Brass
The shock absorption and dampening of vibrations reduce the wear of Carbide-cutting-edges and
therefore, increase the life of saw blade.
C - for Copper
Tooth types available:
MEGA-CUT saw blades can be used for peripheral cutting speeds up to (Vc) 2000 m/min.
A - for Aluminium
B - for Brass
Delivery Program
C - for Copper
13
Size
mm
Bore
mm
Number
of teeth
Pitch
mm
910 x 7,3
80 4/23/120 + 4/27/160
60
47,6
1020 x 8,6
100 4/32/200
60
53,4
1120 x 8,8
100 4/32/200
72
48,9
1250 x 9,3
100 4/32/250
72
54,5
1320 x 9,3
100 4/32/250
72
57,6
1430 x 9,8
100 4/32/250
72
62,4
1510 x 10,8
100 4/32/250
72
65,9
1610 x 10,8
100
80
63,2
1870 x 15,3
100
84
69,9
S - for Steel
Numbers of teeth, cutting widths as well as body thicknesses will be supplied acc. to your demand,
depending on cutting applications (profiles, tubes or solid materials).
Repair and sharpening of TECHNO-CUT saw blades can be effected in the usual way.
14
- for structurals
Sawblades for industrial
High-Tech-Cutting
Hints for the right use:
The sawing-technology has made quantum leaps during the last 15 years:
Particularly for cutting thin-walled AL-profiles on miter swingsaws.
The selection of tool components, like substrates, coatings and the micro-geometry needs to be combined
The negativ tooth system is insensitive against impacts.
in the most optimal way, depending from the specific application. Improvement and innovation are becoming
As a result the blade will not be attracted to the workpiece
more and more the success-factor.
because it offers less resistance against the cutting piece.
The challenge for a sawblade manufacturer is to stabilize a high quality-level. Customers want to have tools
Especially for anodized profiles.
which enables them to generate industrial processes on a stable level.
HM-NE-NEGATIVE
LINDEAMNN is focusing its efforts on a high quality-level, in order to support customers to achieve a reliable
Use at feed by hand:
and low cost-level.
Die MAXIMA Products are a statement of this company philosophy. Customer may have high expectations
For structurals with a wall thickness of:
from every LINDEMANN sawblade. Applications-engineers are supporting customers, in order to achieve new
1 - 3 mm = NW
2 -10 mm = NX
15
Diameter
mm
Width
of cut
mm
Thickness
of saw body
mm
200
200
220
250
250
250
250
275
275
300
300
300
300
330
330
350
350
350
370
400
400
400
400
420
2,6
2,6
2,8
2,8
2,8
2,8
2,8
2,8
2,8
3,8
3,2
3,2
3,2
3,4
3,4
4,2
3,4
3,4
3,6
3,6
3,6
3,6
3,4
3,8
2,2
2,2
2,4
2,4
2,4
2,4
2,4
2,4
2,4
2,8
2,8
2,8
2,8
3,0
3,0
3,8
3,0
3,0
3,2
3,2
3,2
3,2
3,0
3,2
20/30
20/30
30
30/32/40
30/32/40
30/32/40
30/32/40
40
40
30/50/80
30/32/40/80
30/32/40/80
30/32/40/80
30/32/40
30/32/40
40/50/80
30/32/50/40
30/32/50/40
30/40/50
50
30/40
50
30/40/50
30
450
3,8
3,2
40
500
500
500
3,8
3,8
3,8
3,4
3,4
3,4
25,4/30/40/50/80
25,4/30/40/50/80
25,4/30/40/50/80
Bore
hole
mm
No. of
pin holes
pitch circle
4/12/64+2/9/55
4/12/64+2/9/55
4/12/64+2/9/55
4/12/64 + 2/9/55
4/12/64+2/9/55
4/12/64+2/9/55
4/12/64+2/9/55
4/15/80
4/12/64+4/12/80
performance levels in their production.
Number
of teeth
Tooth
pitch
mm
Application
42
48
80
42
60
72
80
68
88
48
72
88
96
84
108
54
84
108
90
66
96
96
120
96
13,5
14,9
8,6
18,7
13,1
10,9
9,8
12,7
9,8
19,6
13,1
10,7
9,8
12,3
10,4
20,4
13,1
10,2
12,9
19,0
13,1
13,1
10,5
13,8
NX
NX
NW
NX
NX
NX
NW
NX
NW
NX
NX
NX
NW
NX
NW
NX
NX
NW
NX
NX
NX
NX
NW
NX
100
14,1
NX
72
100
120
21,8
15,7
13,1
NX
NX
NX
MAXIMA HT
Tube cutting
Automatic cutting machines
Dimension
Pinholes
Number of teeth
Machine
350 x 2,7 x 50
4 x 16 x 80
100
RATTUNDE
350 x 2,7 x 50
4 x 16 x 80
120
RATTUNDE
MAXIMA LS Cermet
MAXIMA HS TCT coated
Sägen von Vollmaterial Dimension
Pinholes
Number of teeth
Machine
250 x 2,0/1,7 x 32
4x9x50 + 4x12x64
60 / 72 / 80
KASTO, TSUNE
285 x 2,0/1,7 x 32
4x9x50 + 4x12x 64
60 / 72 / 80
KASTO, TSUNE
285 x 2,0/1,75 x 40
2x12x80+ 2x12x65
60 / 72 / 80
AMADA, BEHRINGER
315 x 2,3/2,0 x 32
4x16x80 x 4x9x50
60/ 80 / 100
WAGNER/KASTO
315 x 2,3/2,0 x 40
4x16x80 + 2x12x65
60/ 80 / 100
BEHRINGER
360 x 2,6/2,25x 40
4x12x90 + 4x16x80
60/80 / 100
AMADA, BEHRINGER
360 x 2,6/2,25x 50
4x16x80
60/80 / 100
KASTO
460 x 2,7/ 2,25x 40
4x12x90
50/60/80/100
AMADA
460 x 2,7,/2,25 x50
4x15x80
50/60/80/100
KASTO
Weitere Abmessungen und Zähenzahlen auf Anfrage
16
High Speed - Segmental Circular Saw
Blades Why are they so successful?
MAXIMA AF
Cutting tubes on flying cut-offs
Dimension
Pinholes
Number of teeth
400 x 2,8 x 50
4 x 16 x 80
120
450 x 2,8 x 50
4 x 16 x 80
130
450 x 3,6 x 50
4 x 16 x 80
110
500 x 3,3 x 90
3 x 12,5 x 160
140
560 x 3,6 x 90
3 x 13 x 160
140
560 x 3,6 x 140
4 x 17,5 x 170
140
600 x 3,6 x 140
4 x 17,5 x 170
150
Abmessung
Bohrung
HSS-segments
DMo5 (1.3343)
Hardness approx.
63 - 65 HRC
EMo5 Co5 (1.3243)
Hardness approx.
63 - 65 HRC
with high Cobalt content
Zähnezahl
ø
B
b
d
60
72
80
100
225
1,9
1,70
32/40
*
*
*
*
285
2,0
1,80
32/40
*
*
*
*
*
315
2,2
2,00
40/50
*
*
*
*
*
335
2,2
2,00
40/50
*
*
*
*
*
*
350
2,5
2,25
40/50
*
*
*
*
*
*
*
360
2,5
2,25
40/50
*
*
*
*
*
*
*
425
2,7
2,30
50/80/100
*
*
*
*
*
*
*
*
460
2,7
2,30
50/80/100
*
*
*
*
*
*
*
*
500
3,0
2,50
80/100/120
*
*
*
*
*
*
*
*
525
3,0
2,50
80/100/120
*
*
*
*
*
*
*
*
560
3,6
3,00
80/100/120/140
*
*
*
*
*
*
*
630
3,6
3,00
80/100/120/140
*
*
*
*
*
*
*
*
650
3,6
3,00
80/100/120/140
*
*
*
*
*
*
*
*
*
690
3,6
3,00
80/100/120/140
*
*
*
*
*
*
*
*
710
4,0
3,40
80/100/120/140
*
*
*
*
*
*
*
*
800
4,0
3,40
80/100/120/140
*
*
*
*
*
*
*
*
17
120
150
170
200
220
240
HSS-segments
Saw bodies and segments
form an integral unit
HSS-segments
Saw body made of tempered
special steel
HSS-segments:
choice between hardened high speed steel of quality DMo5 or EMo5Co5.
The hardness of approx. 63-65 HRC guarantees optimum protection of wear and
high life time of the saw blade.
Steel body:
made of alloyed steel, tensioned and straightened electronically and have a
strength of approx. 1400 N/mm², size of bore hole = H7.
Compound:
steel body with strong shoulder to receive segments as well as saw body and
segment form an integral unit. The segments are securely held in their closing
ring.
Advantages:
• optimum tempered HSS segments as well as precise manufactured steel
bodies are the basis for „the“ LINDEMANN High Speed Segmental Saw Blades.
• Precise tensioning and straightening is LINDEMANN know-how.
• Side cutting clearance ensures best cutting.
• The tooth geometry is adapted according to the function of cutting.
• High precision of the segments guarantees competent repairing.
18
Customer Service
Complete delivery program
Diameter
Ø mm
Tooth geometry with standard values
VS = Roughing tooth
NS = Finishing tooth
S = Width of cut
S1 = Width of roughing tooth
(S/3-h)
E = Thickness of saw body
T = Tooth pitch
SW = Rake angle
(18°+/-1°)
FW = Clearance angle
( 7°+/-1°)
a = Chamfer of rake angle
(0,08 x T)
h = High-Low difference (table below)
t = Tooth depth
(0,40 x T)
r = Gullet radius
(0,25 x T)
R = Tooth back radius
(1,80 x T)
X = Limit of resharpening
Cutt- Thickness Numing
of saw
ber of
width
body
segmm
mm
ments
Weight
kg
250
3,5
2,8
12
1,0
275
3,0
2,2
12
1,3
315
3,6
3,0
14
1,7
360
3,6
2,8
16
2,5
370
3,6
2,8
16
2,6
400
4,0
3,2
16
2,8
425
4,0
3,2
18
3,4
450
4,0
3,3
18
4,0
460
4,7
3,3
18
5,0
500
5,0
3,8
18
5,8
520
5,7
4,0
18
6,7
560
5,0
3,7
18
7,5
570
5,7
4,0
18
8,8
Tooth pitch in mm
High - Low difference in mm
4,5 - 8,5
0,20 - 0,30
8,6 - 16,5
0,25 - 0,35
16,6 - 28,5
0,40 - 0,50
630
6,0
4,0
20
10,8
28,6 - 48,5
0,50 - 0,60
660
6,0
4,0
20
11,5
48,6 - 88,8
0,60 - 0,70
710
6,0
4,5
24
13,5
760
6,0
4,5
24
16,5
800
7,0
5,0
24
19,0
910
7,0
5,0
30
27,5
1020
8,3
6,2
30
35,0
1120
8,5
6,5
36
50,0
1250
9,0
7,0
36
65,0
1320
9,0
7,0
36
75,0
1430
9,5
7,0
36
93,0
1510
10,5
8,5
36
112,0
1610
10,5
8,5
40
126,0
1870
15,0
11,0
42
235,0
Number
of teeth
Tooth
pitch
2
T =mm
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
T
Z
60
T
47,6
Z
60
T
53,4
Z
72
T
48,9
Z
72
T
54,5
Z
72
T
57,6
Z
72
T
62,4
Z
72
T
65,9
Z
80
T
63,2
Z
84
T
69,9
HSS-segments
available in
Number of teeth per segment
3
54
29,1
60
33,0
60
34,6
72
31,0
72
33,2
72
34,9
90
31,8
90
35,6
108
32,6
108
36,4
108
38,4
108
41,6
108
43,9
120
42,1
126
46,6
4
56
17,7
64
17,7
64
18,2
64
19,6
72
18,5
72
19,6
72
20,1
72
21,8
72
22,7
72
24,4
72
24,9
80
24,7
80
25,9
96
23,2
96
24,9
96
26,2
120
23,8
120
26,7
144
24,4
144
27,3
144
28,8
144
31,2
144
32,9
160
31,6
168
35,0
5
6
60
13,1
60
14,4
70
14,1
80
14,1
80
14,5
80
15,7
90
14,8
90
15,7
90
16,1
90
17,5
90
18,2
90
19,5
90
19,9
100
19,8
100
20,7
120
18,6
120
19,9
120
20,9
150
19,1
150
21,4
180
19,5
180
21,8
180
23,0
180
25,0
180
26,4
200
25,3
72
10,9
72
12,0
84
11,8
96
11,8
96
12,1
96
13,1
108
12,4
108
13,1
108
13,4
108
14,5
108
15,1
108
16,3
108
16,6
120
16,5
120
17,3
144
15,5
144
16,6
144
17,5
180
15,9
180
17,8
216
16,3
216
18,2
216
19,2
216
20,8
216
22,03
240
21,1
8
96
8,2
96
9,0
112
8,8
128
8,8
128
9,1
128
9,8
144
9,3
144
9,8
144
10,0
144
10,9
144
11,3
144
12,2
144
12,4
160
12,4
160
13,0
192
11,6
192
12,4
192
13,1
240
11,9
240
13,4
288
13,6
10
12
120
6,5
120
7,2
140
7,1
160
7,1
160
7,3
160
7,9
180
7,4
180
7,9
180
8,0
180
8,7
180
9,1
180
9,8
180
9,9
200
9,9
200
10,4
144
5,5
144
6,0
168
5,9
192
5,9
192
6,1
192
6,5
216
6,2
216
6,7
216
7,3
216
7,6
216
8,1
216
8,3
DMo5 EMo5 Co5
(1.3343) (1.3243)
D
D
D
D
D
D
E
D
E
D
E
D
D
D
D
D
D
240
8,6
D
D
240
9,9
240
10,5
E
E
D
D
D
D
D
D
288
14,4
288
15,6
D
D
D
D
E
D
Bolt print number of teeth = with cooling slots
Other toothings on request
19
20
Standard program
Segmental Circular Saw Blades R/T
SPECIAL-TOOTHING
world wide
with segments made of
HSS - DMo5, material
no. 1.3343
tooth form: roughing
tooth and finishing
tooth geometry
succesful
The specialists for difficult cutting.
approved
Why so successful?
Solving problems for
Special segments are ground radial and tangential.
The relief grinding ensures good cutting clearance and
avoids side pick-up on the tooth rim.
- Large cross-sections
- Large H-beams
- Materials with own tension
radial relief grinding
Diameter
Ø mm
Cuttingwidth
mm
250
275
315
360
3,5
3,0
3,6
3,6
Thickness
ofsaw body
mm
2,8
2,2
3,0
2,8
370
400
425
450
3,6
4,0
4,0
4,0
2,8
3,2
3,2
3,3
16
16
18
18
460
4,7
3,3
18
500
560
5,0
5,0
3,8
3,7
18
18
570
630
660
5,7
6,0
6,0
4,0
4,0
4,0
18
20
20
710
760
800
910
6,0
6,0
7,0
7,0
4,5
4,5
5,0
5,0
24
24
24
30
1020
1120
1250
8,3
8,5
9,0
6,2
6,5
7,0
30
36
36
1320
9,0
7,0
36
1430
9,5
7,0
K = with cooling slots
O = without cooling slots
deviating executions on request.
36
21
Number ofpin holes
12
12
14
16
Bore holes and
Nebenlöcher
mm
32 4-9-50
40 2-8-55 + 4-12-64
40 2-11-55 + 4-12-64
40 2-11-55 + 4-12-64
50 4-15-80 + 4-15-85
50 4-15-80 + 4-15-85
50 4-15-80 + 4-15-85
50 4-15-80
40 2-15-80 + 2-15-100
50 4-15-80 + 4-18-100
50 4-15-80 + 4-18-100
60 8-16-90 + 4-18-100
50 4-15-80 + 4-18-100
80 4-23-120
80 8-22-142
50 4-18-100
80 4-23-120
80 4-23-120
80 8-22-142
80 4-23-120
80 4-23-120 + 4-27-160
80 4-23-120 + 4-27-160
80 4-23-120 + 4-27-160
100 8-27-186
100 4-32-200
100 4-32-200
100 4-32-250
100 4-32-220 + 4-32-250
100 4-32-250
160 8-32-270 + 4-42-315
100 4-32-250
tangential relief grinding
Number of teeth per segments
2
3
4
k
k
k
k
k
k
k
k
k
k
k
k
k
k
o
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
5
6
8
10
12
k
k
k
k
k
k
k
kk
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
o
k
k
k
o
k
k
o
k
k
k
k
k
k
k
o
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
k
o
• with segments made of HSS-DMo5, material no. 1.3343
• with radial and tangential relief grinding
Thickness
Bore holes and
of saw
Number of
pin holes
body
segments
mm
mm
o
o
Diameter
Ø mm
Cuttingwidth
mm
o
o
o
630
6,0
4,0
20
80 4/23/120
710
6,0
4,5
24
80 4/23/120
800
7,0
5,0
24
910
7,0
5,0
30
80 4/23/120 +
4/27/160
80 4/23/120 +
4/27/160
100 8/27/186
1020
8,3
6,2
30
100 4/32/200
o
1120
8,5
6,5
36
100 4/32/200
k
k
o
1250
9,0
7,0
36
1320
9,0
7,0
36
100 4/32/220 +
4/32/250
100 4/32/250
160 8/27/270 +
4/42/315
1430
9,5
7,0
36
100 4/32/250
Number of
teeth Z
Tooth pitch
T = mm
Z
T
Z
T
Z
T
COARSE II COARSE III COARSE IV
special
special
special
COARSE V
special
60
33,0
72
31,0
72
34,9
80
24,7
96
23,2
96
26,2
100
19,8
120
18,6
120
20,9
Z
T
60
47,6
90
31,8
120
23,8
150
19,1
Z
T
Z
T
Z
T
60
53,4
72
48,9
72
54,5
90
35,6
108
32,6
108
32,4
120
26,7
144
24,4
144
27,3
150
21,4
180
19,5
180
21,8
Z
T
72
57,6
108
38,4
144
28,8
180
23,0
Z
T
72
62,4
108
41,6
144
31,2
180
25,0
22
Correct tooth pitch
- optimum cutting process
Approximate Technical Values
for economical use of Segmental Circular Saw Blades
Material groups
Structural Steels
Case hardening steels
Free-Machining steels
Heat- treatable steels
Steel castings
Cast irons
Ball bearing steels
Spring steels
Unalloyed tool steels
Alloyed tool steels
High speed steels
Valvesteels
Stainless steels
Light metals
Heavy metals
Copper
Bronze
Brass
Germansilver
23
Materialspecification
ST33-1
ST37-3
ST42-3
ST50-2
ST52-3
ST60-2
C15
16MnCr5
20CrMo2
9SMn28
45S20
C35
C60
30Mn5
GS-38
GS-52
GS-60
GS-70
Material
No.
1.0033
1.0116
1.0136
1.0050
1.0570
1.0060
1.0401
1.7131
1.7311
1.0715
1.0727
1.0501
1.0601
1.1165
1.0416
1.0551
1.0553
1.0554
Hardness
Cutting
speed
Feed per
Tooth pair
N/mm2
Vc=m/min.
fz=mm/Zp
300 - 500
350 - 450
400 - 500
500 - 600
500 - 600
600 - 700
400 - 500
Clearance
angle
High-Speed
Steel of
segments
1.3343
DMo5=D
1.3243
Emo5Co5=E
24 - 40
0,18 - 0,28
18 - 20
7 - 10
D
18 - 40
0,15 - 0,25
16 - 20
6-9
D
18 - 24
0,15 - 0,25
18 - 20
7-9
D
18 - 24
0,15 - 0,25
18 - 20
7-9
D
15 - 20
0,12 - 0,25
18 - 20
7-9
D
380 - 520
20 - 28
0,18 - 0,28
600 - 700
16 - 22
0,15 - 0,25
15 - 20
6-8
D
700 - 750
400 - 600
600 - 750
550 - 750
700 - 850
700 - 900
Decisive for economical cutting, Segmental Circular Saw Blades are the right choice of tooth pitch in
connection with the dimension of the material and the material quality.
Technical recommendation = T Length of cutting arc - height of cutting material in mm = D for tooth pitch in mm
D=
0.6015
0.6030
0.7050
0.8040
0.8165
1.3505
1.3520
1.0904
1.7176
1.1750
1.1525
1.2002
1.2080
1.2083
1.2201
1.2365
1.2542
1.2714
S-6-5-2-5
1.3243
800 - 900
X45CrSi9 3
X45CrNiW18 9
X10Cr13
X20Cr13
Al99,5
AlMgSiPb
MgAl6Zn
1.4718
1.4873
1.4006
1.4021
3.0255
3.0615
3.5612
900 - 1050
800 - 1000
450 - 650
700 - 800
150 - 500
16 - 25
0,18 - 0,28
18 - 20
6-8
D
600 - 700
15 - 18
0,15 - 0,25
15 - 18
6-8
D
900 - 1000
10 - 12
0,08 - 0,12
14 - 16
6-8
E
1200 - 1400
6 - 10
0,06 - 0,12
12
6
E
600 - 700
10 - 12
0,08 - 0,15
14 -16
6
20
30
40
50
60
70
80
90 100 125 150 175 200 250 300 400 500 600
Light metals
Copper
Structural Steels
Heat-treatable steels
Nitriding steels
Case hardening steels
Steel castings
T=
8,0 10,5 12,5 14,5 16,5 18,0 9,5 21,0 22,5 26,0 29,5 32,5 35,5 40,5 45,5 55,5 58,0 64,0
Cast irons
Spring steels
Rolled steels
Valve steels
Tool steels
High speed steels
T=
GG-15
GG-30
GGG-50
GTW-50
GTS-65
100Cr6
100CrMn6
55Si7
55Cr3
C75W
C80W1
125Cr1
X210Cr12
X42Cr13
X165CrV12
X32CrMoV3 3
45WCrV7
56NiCrMoV7
Cu
CuSn
CuZn
CuNi
Cutting
angle
6,5 8,0 9,5 11,0 12,0 13,0 14,0 15,0 16,0 18,5 20,5 22,5 24,0 27,0 30,0 36,0 39,0 43,0
Profiles of all material qualities
wall thickness = 0,1 x D
T = 5,5 6,5
7,5 8,5 9,5 10,5 11,0 11,5 12,0 13,5 15,0 16,5 17,5 19,5 21,5 23,5 25,0 27,0
Profiles of all material qualities
wall thickness = 0,05 x D
E
T=
5,0
6,0 7,0 7,5 8,0 8,5 9,0
9,5 10,0 11,0 12,0 12,5 13,0 14,0 15,0 17,0 19,0 21,0
Profiles of all material qualities
wall thickness = 0,025 x D
800 - 900
8 - 12
0,05 - 0,12
12 - 16
6-8
E
T = 4,0 4,5 5,0 5,5 6,0 6,3
8 - 12
0,08 - 0,15
13 - 16
6-8
E
The data recommended in this table are intended only as a guide.
8 - 12
0,10 - 0,15
10 - 12
6
E
Break-in procedure: for a long life time
8 - 12
0,08 - 0,15
16 - 18
6-8
E
100 - 300
100 - 500
800 -2000
200 - 600
0,05 - 0,10
25 - 28
22 - 25
10 - 12
10 - 12
D
150 - 200
50 - 150
200 - 400
-
100 - 300
40 - 120
150 - 300
100 - 200
0,07 - 0,15
0,10 - 0,16
0,10 - 0,16
0,07 - 0,15
20 - 25
18 - 20
10 - 15
20 - 22
10 - 12
8 - 10
8 - 10
10 - 12
D
D
D
D
6,5
6,8 7,0 7,5 8,0 8,5 9,0 9,5 10,0 11,0 12,0 13,0
Like all HSS tools, Segmental Circular Saw Blades have to follow special break-in procedures to guarantee
long blade life and to save tool costs.Overload of the razor-sharp tooth tips should be avoided at the start
of cutting operation.Aggressive cutting with a new blade will lead to premature tooth breakages. Correct
break-in will control the gentle rounding of cutting edges.
Starting feed should be half of the optimum speed rate at the recommended cutting speed for the first
„300-500 cm²“ cut surface. After that feed rate should be gradually increased for maximum rate as above
mentioned.
24
Metal Circular Saw Blades up to Ø 600 mm
Which high speed steels are available?
HSS-EMo5Co5
HSS-DMo5
1.3343
1.3243
The main alloy components
Cr = 3,8 - 4,5 %
W = 6,0 - 6,7 %
Mo = 4,7 - 5,2 %
V = 1,7 - 2,0 %
Cr = 3,8 - 4,5 %
W = 6,0 - 6,7 %
Mo = 4,7 - 5,2 %
V = 1,7 - 2,0 %
Co = 4,5 - 5,0 %
Hardness
64 +/- 1 HRC
für Stähle _< 800 N/mm
NE - Metalle
65 +/- 1 HRC
Application
2
für Stahl _> 800 N/mm
Cr-Ni - Stähle
2
Surface finishing
- blank excecution
- steam - treated excecution
- TIN - coated surface
- TICN - coated surface
- TIALN - coated surface
- CrN - coated surface
2200/2400 HV
3000/3300 HV
3300/3500 HV
2000/2500 HV
Production tolerances
25
Diameter mm
Bore hole mm
Hub mm
Runout mm
Planaritymm
Tol.+/- 0,5 mm
Tol. H7
Tol. +/- 2,0 mm
max.
Tol. +/- 0,05 mm
175
25,4 - 32 - 40
70
0,10
0,1
200
25,4 - 32 - 40
90/100
0,10
0,1
210
25,4 - 32 - 40
90
0,10
0,1
225
25,4 - 32 - 40
90/100
0,10
0,1
250
25,4 - 32 - 40
90/100
0,15
0,1
275
25,4 - 32 - 40
90/100
0,15
0,1
300
25,4 - 32 -38- 40
90/100
0,15
0,1
315
325
350
32 - 40
32 - 38 - 40
32 - 40 - 50
100
100
120
0,15
0,20
0,20
0,1
0,1
0,1
370
32 - 40 - 45 - 50
120
0,20
0,1
400
40 - 50
120
0,25
0,1
425
40 - 50
120
0,25
0,1
450
40 - 50
130
0,25
0,1
500
40 - 50
130
0,30
0,1
525
50
130
0,30
0,1
550
50 - 80
160
0,35
0,1
560
50 - 80
200
0,40
0,1
600
50 - 80
200
0,40
0,1
Standard program
Dia- CuttingBore hole Hub
meter width
Ø mm
mm
Ø mm
mm
175
175
175
200
200
200
200
200
200
210
1,2
1,5
2,0
1,0
1,2
1,5/1,6
1,8
2,0
2,5
2,0
32
32
32
32
32
32
32
25,4/32
32
32
70
70
70
100
100
90
90
90
90
90
225
225
225
225
225
250
250
250
250
250
275
275
275
275
300
300
300
300
315
315
315
315
325
325
325
350
350
350
350
370
370
370
400
400
400
400
425
425
425
425
450
450
450
500
500
500
525
525
560
560
600
600
1,2
1,5/1,6
1,8/1,9
2,0
2,5
1,2
1,5/1,6
2,0
2,5
3,0
1,6
2,0
2,5
3,0
1,6
2,0
2,5
3,0
2,0
2,5
3,0
3,5
2,0
2,5
3,0
2,0
2,5
3,0
3,5
2,5
3,0
3,5
2,5
3,0
3,5
4,0
2,5
3,0
3,5
4,0
3,0
3,5
4,0
3,0
3,5
4,0
3,5
4,0
4,0
4,5
4,0
4,5
32
32
32/40
32
32
32
32
25,4/32/40
25,4/32/40
32
32
32/40
25,4/32/40
32/40
32
32/40
32/38/40
32/40
32/40
32/40
32/40
32/40
32/40
32/40
40
32/50
32/50
32/50
32/50
40/50
32/40/50
40
40/50
40/50
40/50
50
40/50
40/50
50
50
40/50
40/50
40/50
40/50
40/50
40/50
50
50
50/80
50/80
50/80
50/80
100
90
90
90
90
100
100
90
90
90
100
90
90
90
100
100
90
90
100
100
100
100
100
100
100
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
130
130
130
130
130
130
130
130
200
200
200
200
* = Specifications on request
BW
T3
180BW
180BW
180BW
200BW
200BW
200BW
200BW
200BW
200BW
210BW
BW
T4
140BW
140BW
140BW
160BW
160BW
160BW
160BW
160BW
160BW
160BW
HZ
T5
110HZ
110HZ
110HZ
130HZ
130HZ
130HZ
130HZ
130HZ
130HZ
220BW
220BW
220BW
220BW
220BW
250BW
250BW
250BW
250BW
250BW
280BW
280BW
280BW
280BW
300BW
300BW
300BW
300BW
300BW
300BW
300BW
300BW
320BW
320BW
320BW
350BW
350BW
350BW
350BW
180BW
180BW
180BW
180BW
180BW
200BW
200BW
200BW
200BW
200BW
220BW
220BW
220BW
220BW
220BW
220BW
220BW
220BW
240BW
240BW
240BW
240BW
250BW
250BW
250BW
280BW
280BW
280BW
280BW
280BW
280BW
280BW
310BW
310BW
310BW
310BW
320BW
320BW
320BW
320BW
350BW
350BW
350BW
140HZ
140HZ
140HZ
140HZ
140HZ
160HZ
160HZ
160HZ
160HZ
160HZ
180HZ
180HZ
180HZ
180HZ
180HZ
180HZ
180HZ
180HZ
200HZ
200HZ
200HZ
200HZ
200HZ
200HZ
200HZ
220HZ
220HZ
220HZ
220HZ
220HZ
220HZ
220HZ
250HZ
250HZ
250HZ
250HZ
260HZ
260HZ
260HZ
260HZ
410BW
410BW
450BW
450BW
460BW
460BW
310HZ
310HZ
310HZ
330HZ
330HZ
360HZ
360HZ
380HZ
380HZ
Numberg of teeth and tooth from
T = Tooth pitch mm
HZ
HZ
HZ
HZ
HZ
HZ
T6
T7
T8
T9
T10 T11
90HZ
70HZ
90HZ
70HZ
90HZ
70HZ
100HZ
80HZ
64HZ
100HZ
80HZ
64HZ
100HZ
80HZ
64HZ
100HZ
80HZ
64HZ
100HZ
80HZ
64HZ
100HZ
80HZ
64HZ
110HZ
80HZ
120HZ
90HZ
120HZ
90HZ
120HZ
90HZ
120HZ
90HZ
120HZ
90HZ
128HZ 110HZ 100HZ
128HZ 110HZ 100HZ
128HZ 110HZ 100HZ
128HZ 110HZ 100HZ
128HZ 110HZ 100HZ
140HZ 120HZ 110HZ
140HZ 120HZ 110HZ
140HZ 120HZ 110HZ
140HZ 120HZ 110HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
160HZ 140HZ 120HZ
170HZ
128HZ
170HZ
128HZ
170HZ
128HZ
180HZ 160HZ 140HZ
180HZ 160HZ 140HZ
180HZ 160HZ 140HZ
180HZ 160HZ 140HZ
190HZ 160HZ 140HZ
190HZ 160HZ 140HZ
190HZ 160HZ 140HZ
200HZ
160HZ
200HZ
160HZ
200HZ
160HZ
200HZ
160HZ
220HZ
160HZ
220HZ
160HZ
220HZ
160HZ
220HZ
160HZ
230HZ
180HZ
230HZ
180HZ
230HZ
180HZ
260HZ
200HZ
260HZ
200HZ
260HZ
200HZ
270HZ
210HZ
270HZ
210HZ
300HZ
220HZ
300HZ
220HZ
320HZ
240HZ
320HZ
240HZ
80HZ
80HZ
80HZ
80HZ
80HZ
120HZ
120HZ
120HZ
120HZ
120HZ
120HZ
120HZ
80HZ
80HZ
80HZ
80HZ
80HZ
90HZ
90HZ
90HZ
90HZ
94HZ
94HZ
94HZ
94HZ
100HZ
100HZ
100HZ
100HZ
HZ
T12
HZ
T14
HZ
T16
64HZ
64HZ
64HZ
64HZ
64HZ
80HZ
80HZ
80HZ
80HZ
110HZ
90HZ
110HZ
90HZ
110HZ
90HZ
110HZ
90HZ
110HZ
100HZ
110HZ
100HZ
110HZ
100HZ
120HZ 110HZ 100HZ
120HZ 110HZ 100HZ
120HZ 110HZ 100HZ
120HZ 110HZ 100HZ
130HZ
110HZ
130HZ
110HZ
130HZ
110HZ
130HZ
110HZ
140HZ
120HZ
140HZ
120HZ
140HZ
120HZ
160HZ
130HZ
160HZ
130HZ
160HZ
130HZ
164HZ
140HZ
164HZ
140HZ
180HZ
150HZ
180HZ
150HZ
190HZ
160HZ
190HZ
160HZ
70HZ
70HZ
70HZ
70HZ
80HZ
80HZ
80HZ
80HZ
80HZ 70HZ
80HZ 70HZ
80HZ 70HZ
80HZ
80HZ
80HZ
80HZ
80HZ
80HZ
80HZ
80HZ
90HZ
90HZ
90HZ
100HZ
100HZ
100HZ
104HZ
104HZ
26
Metal Circular Saw Blades
according to DIN 1837 - 1838
Bore holes and pin holes
Register of modern
Circular Saw Blade machines with
information about dimensions
DIN 1837 A, fine toothing
of the saw blades to be used or
D (j15)
20
25
32
40
50
63
80
100
125
160
200
250
315
d (H7)
5
8
8
10
13
16
22
22
22
32
32
32
40
B (j11)
Number of teeth (Z)
Type of machine
ADIGE SALA
0,2
80
80
100
128
128
0,25
64
80
100
100
128
160
0,3
64
80
80
100
128
128
160
BEWO
0,4
64
64
80
100
100
128
160
0,5
48
64
80
80
100
128
128
160
BIMAX
BONAK
0,6
48
64
64
80
100
100
128
160
160
0,8
48
48
64
80
80
100
128
128
160
1,0
40
48
64
64
80
100
100
128
160
160
200
1,2
40
48
48
64
80
80
100
128
128
160
200
1,6
40
40
48
64
64
80
100
100
128
160
160
200
2,0
32
40
48
48
64
80
80
100
128
128
160
200
2,5
32
40
40
48
64
64
80
100
100
128
160
160
200
3,0
32
32
40
48
48
64
80
80
100
128
128
160
200
4,0
24
32
40
40
48
64
64
80
100
100
128
160
160
5,0
24
32
32
40
48
48
64
80
80
100
128
128
160
6,0
24
24
32
40
40
48
64
64
80
100
100
128
160
BAIER
BROBO
WALDOWN
CONNI
DALLY
DEMURGER
DONG JIN
DORINGER
EISELE
EXACTCUT
FABRIS
FEMI
FONG-HO
DIN 1838 B and C, COARSE toothing
GERNETTI
D (j15)
50
63
80
100
125
160
200
250
315
d (H7)
13
16
22
22
22
32
32
32
40
B (j11)
Number of teeth (Z)
1,0
40
48
48
64
80
80
1,2
40
40
48
64
64
80
100
1,6
32
40
48
48
64
80
80
100
2,0
32
40
40
48
64
64
80
100
2,5
32
32
40
48
48
64
80
80
100
3,0
24
32
40
40
48
64
64
80
100
4,0
24
32
32
40
48
48
64
80
80
5,0
24
24
32
40
40
48
64
64
80
6,0
20
24
32
32
40
48
48
64
80
27
HÄBERLE
Saw blade
Ø mm
200 - 250
275 - 315
315 - 350
400 - 425
175 - 250
200 - 300
315
350
100 - 300
250 - 350
225 - 250
300
300 - 400
500
400 - 425
400 - 500
250 - 500
160 - 300
200 - 250
225 - 350
300 - 370
315 - 350
110
210 - 220
250 - 350
370 - 450
500
250
225 - 350
225 - 350
250 - 275
300 - 400
360
315
350
500
225
225 - 275
300 - 450
What saw blade belongs
to what type of machine?
Bore
Pin hole
hole
mm
Ø mm
32
4-9-50
32
2-11-63 + 2-9-50
40
4-12-64
50
4-15-80
32
4 Keilnuten
32
2-8-45 + 2-11-63
40
2-8-55 + 4-12-63
40
2-8-55 + 4-12-63
32
2-8-45
40
2-8-55 + 4-12-64
32
2-8-45 + 2-11-63
38
2-9-55
40
2-8-55 + 4-12-64
40
2-8-55 + 4-12-64 + 2-12-80
40
4-11-63
4-15-80
50
40
2-8-55 + 4-12-64 + 2-12-80
25,4
ohne Nebenlöcher
32
2-8-45 + 2-11-63
40
2-8-55 + 4-12-64
40
2-8-55 + 4-12-64
40
2-12-64
22
ohne Nebenlöcher
40
2-8-55
40
2-8-55 + 4-12-64
40
2-12-64 + 2-15-80
40
2-12-80 + 2-15-100
32
4-9-50
32
2-8-45 + 2-11-63
32
2-8-45 + 2-11-63
32
2-8-45 + 2-9-50 + 2-11-63
32
4-11-63
40
2-11-63 + 3-11-65
40
50
50
4-11-63
4-15-80
4-18-100
32
40
40
2-8-45
2-8-55
2-8-55 + 4-12-64
IBP
PEDRAZZOLI
200 - 350
425 - 500
32
50
2-11-63
4-15-80
IMET
250 - 350
315 - 350
32
40
2-8-45 + 2-11-63
2-8-55 + 4-12-64
KALTENBACH
225 - 250
350 - 450
32
50
ohne Nebenlöcher
4-15-80
KASTO
425
50
4-15-80
32
45
45
32
40
32
40
2-9-50 + 2-8-45
2-11-66
4-11-66
MACC
250
275
360 - 380
300
370 - 450
225 - 350
350 - 450
2-8-45 + 2-11-63
2-8-55 + 4-12-64
MACO
350 - 425
50
4-15-80
MAIR
300 - 350
300 - 350
32
40
2-8-45 + 2-11-63
2-8-55 + 4-12-64
MEP
225 - 350
32
2-8-45 + 2-11-63
KOSOKU
MAC
2-9-50
4-11-63
Type of machine
Saw blade
Ø mm
METORA
250 - 350
Bore
hole
Ø mm
32
MBM MERCURY 300 - 350
300
400
400
MTM
450
550
550
OMES
225 - 370
250 - 370
OMP
400 - 525
500
OTO MILLS
550
- 315
PEDRAZOLLI 250
300 - 350
RATTUNDE
400
225 - 350
RAYGOR
300
250 - 370
225 - 275
RGA
250 - 370
ROBEJO
250 - 350
175 - 300
ROHBI TSUNE
285
420
RSA
315
225
250 - 315
RURACK
370
300 - 350
- 300
SCOTCHMAN 250
275 - 350
SIMEC
250 - 350
32
32
40
50
90
80
90
32
32
50
50
140
32
22/30
50
32
38
40
25,4
40
32
32
32
50
40
32
32
40
40
32
40
32
ohne Nebenlöcher
2-8-45
4-12-64
4-15-80
3-13-160
3-13-160
3-13-160
2-8-45 + 2-11-63
2-8-45 + 2-11-63
4-15-80
4-15-80
4-20-170
4-11-63
ohne Nebenlöcher
4-15-80
2-8-45 + 2-11-63
2-9-55
2-8-55 + 4-12-64
ohne Nebenlöcher
2-8-55 + 2-11-63
2-8-45 + 2-12-64
2-8-45 + 2-11-63
4-9-50
4-15-80
4-13-63
2-8-45 + 2-11-63
2-8-45 + 4-9-50 + 2-12-84
4-12-64 + 2-15-80
2-8-55 - 4-12-64
2-8-45 + 2-11-63
2-8-55 + 4-12-64
2-8-45 + 2-11-63
2-8-45 + 2-11-63
Pin hole
mm
2-11-80
SINICO
350
32
SOCO
250 - 350
32
2-8-45 + 2-11-63
250
STARTRITE
300 - 315
225
STAYER
300 - 350
THOMAS
225 - 350
TOMET
225 - 350
250
TRENNJAEGER 250 - 315
315 - 450
160 - 300
ULMIA
250 - 400
VAI-SEUTHE
560
250
- 350
VIEMME
250 - 400
VOUCHER
275
200
- 315
WAGNER
350
WAHLEN
250 - 400
32
32
32
32
32
32
32
40
50
32
40
80
32
40
35
32
50
40
2-9-56 + 2-12-64
2-11-80
ohne Nebenlöcher
ohne Nebenlöcher
2-8-45 + 2-11-63
2-8-45 + 2-11-63
2-9-50
4-11-63
4-14-85
ohne Nebenlöcher
4-11-63
4-23-120
2-8-45 + 2-11-63
2-8-55 + 4-12-64
2-13,5-57,2
4-9-50
4-15-80
2-8-55 + 2-11-63
32
40
32
40
40
2-8-45 + 2-11-63
2-8-55 + 4-12-64
2-8-45 + 2-11-63
2-8-55 + 4-12-64
2-8-55 + 4-12-64
WEIDMAN
WINTER
WUNSCH
210 - 275
250 - 315
210 - 250
210 - 300
315 - 400
28
Tooth forms and
tooth geometries
LINDEMANN according to their application, with different kinds of tooth forms.
How to choose the right tooth form?
Technical Recommendations
for an economical cutting of Metal Slitting Saw Blades
Tooth form „A“ and „AW“
For thin Metal Slitting Saw Blades with a tooth pitch up to
approx. 3,0 mm.
Advisable for brass, tooth form „A“ is suitable for slotting
materials.
Cutting
speed
Vc = m/min
Feeding
per tooth
fz = mm/Z
Cutting
angle
SW
Clearance
angle
FW
30 - 50
0,05 - 0,08
18 - 20°
8 - 12°
DMo 5 + steam-treated execution
- 240
0,08 - 0,12
18 - 20°
8 - 12°
DMo 5 + multi-layer coating
20 - 40
0,03 - 0,06
15 - 17°
6 - 8°
DMo 5 + steam-treated execution
- 120
0,05 - 0,08
15 - 18°
6 - 8°
DMo 5 + multi-layer coating
Steels up to 1200 N/mm²
12 - 25
0,03 - 0,05
14 - 16°
6 - 8°
EMo 5 + steam-treated execution
Stainless steels (solid material)
10 - 25
0,04 - 0,07
14 - 16°
6 - 8°
EMo 5 + steam-treated execution
- 50
0,06 - 0,10
16 - 18°
6 - 8°
15 - 25
0,07 - 0,12
16 - 18°
6 - 8°
Aluminum + aluminum alloys
(solid material)
600 - 900
0,05 - 0,10
22 - 25°
10 - 12°
DMo 5 + blank execution
Aluminum + aluminum alloys
(pipes + profiles)
800 - 1200
0,07 - 0,12
22 - 25°
10 - 12°
DMo 5 + blank execution
Bronze
40 - 120
0,04 - 0,06
16 - 18°
8 - 10°
DMo 5 + steam-treated execution
Copper
100 - 400
0,04 - 0,06
20 - 22°
10 - 12°
DMo 5 + steam-treated execution
Brass
150 - 400
0,05 - 0,08
14 - 16°
8 - 10°
DMo 5 + steam-treated
All teeth of tooth form „AW“ are bevelled alternatively.
Materials
Steel (solid material) up to 500 N/mm²
Tooth form „B” and „BW”
Suitable for cutting tubes and profiles made of steel or non-ferrous
metals. Tooth form „B” is specialized for cutting very thinwalled
pipes and profiles.
All teeth of tooth form „BW” are bevelled alternatively.
Steel (pipes + profiles) up to 500 N/mm²
Steel (solid material) up to 800 N/mm²
Steels (pipes + profiles) up to 800 N/mm²
Stainless steels (pipes + profiles)
Cast irons
Tooth form „HZ“
This tooth is also known as form „C“. Teeth are ground according
to the roughing and finishing tooth system. A tooth pair
is consisting of one roughing tooth (1/3 cutting width) and
one finishing tooth (2x1/3 cutting width). According to the triple
chip geometry the roughing tooth is approx. 0,2 - 0,3 mm
higher compared with the finishing tooth. Tooth form „HZ“ is
suitable for cutting solid materials.
HSS type + surface
+ Oberfläche
EMo 5 + multi-layer coating
DMo 5 + steam-treated execution
The data recommended in this table are intended only as a guide.
The choice for optimal cutting and the choice of tools is decisive to optimise the sawing process as well as
Tooth form „BR“
Tooth form „BR“ is a parrot tooth with chip breaker. This tooth
form is suitable for cutting pipes under high performance conditions
because the teeth are side cutting.
the economical use of saw blade tools.
It is important to observe the right proportion between the feed rate and the cutting speed. A cutting
speed that is too high combined with a too low feed causes premature wear of the saw blade. A cutting
speed that is too low combined with a too high feed can lead to overstrain and breakage of the saw blade.
29
30
Correct tooth pitch optimum performance
PVD - coatings
The secret of high life time
The choice of the right tooth pitch is vital to achieve the optimum performance for Metal Slitting Saw
Advantages:
Blades in order to cut the relevant cross section combined with the quality of material.
Material
Stainless
Steel
Steel
Steel
steels
up to 500 up to 800 up to 1200
ständige
N/mm²
N/mm²
N/mm²
Stähle
Solid material diam. (mm)
Cast
irons
Light
metals
Copper
and
Bronze
Brass
Tooth pitch T (mm)
10 - 20
8
6
5
6
6
8
6
8
20 - 40
10
8
6
6
6
10
8
10
40 - 60
12
10
8
8
8
12
10
12
60 - 90
15
13
10
11
11
16
13
14
90 - 110
18
16
12
14
14
18
16
18
110 - 130
22
18
14
16
16
22
18
20
130 - 150
25
20
16
18
18
25
20
22
Pipes and profiles Wall thickness
(mm)
- High cutting speed
- Increased feed
- Excellent protection of wear
- Lower friction coefficient
- Avoidance of side pick-up
- Increasing productivity
- Reduced production costs
Sort of coatings
Tooth pitch T (mm)
coating
TICNcoating
TIALNcoating
CrN-
coating
Metal Circular Saw Blades Metal Circular Saw Blades Metal Circular Saw Blades Metal Circular Saw Blades
Segmental Saw Blades
Segmental Saw Blades
Segmental Saw Blades
Segmental Saw Blades
Surface
Titan - Nitrid
Titan - Carbo - Nitrid
Titan - Aluminium - Nitrid
Chrom - Nitrid
Process
PVD
PVD
PVD
PVD
Coating temperature
200 - 500° C
300 - 500° C
300 - 450° C
200 - 550° C
Constancy of temperature 500 - 600° C
500 - 600° C
600 - 800° C
400 - 500° C
2200 - 2400 HV
3000 - 3300 HV
3300 - 3500 HV
2000 - 2500 HV
Colour of coating
golden - yellow
violet
blac - violet
metallic - grey
Thickness of coating
2 - 4 μm
3 - 4 μm
3 - 4 μm
4 - 12 μm
Friction
0,4 - 0,5
0,2 - 0,3
0,3 - 0,4
0,3 - 0,4
<1
3
3
3
3
-
4
4
4
1 - 1,5
4
4
3
4
-
5
5
5
1,5 - 2
5
4
4
5
-
6
6
6
2-3
6
5
5
5
-
7
7
7
>3
7
6
5
6
-
8
8
8
Hardness of surface
The data recommended in this table are intended only as a guide.
Structual steel
Break-in procedures: For long blade life.
For extended blade life, less blade changes and best payback of your tool cost, special break-in procedures
should be adhered to.
Alloyed steels
Operation
Correct break-in will control the gentle rounding of the cutting edges.
Starting feed should be half of the final feed rate at the recommended cutting speed for the first
150-200 cm² cut surface. After that, feed rate should be gradually increased for maximum cutting rate
as mentioned above.
Steel pipes and profiles
Pipes and profiles out
non ferrous metals
Overload of the razor-sharp tooth tips should be avoided at the start of cutting operation. Aggressive cutting
with new blades will lead to premature tooth breakage.
31
TIN-
Very hard steels
Steel pipes and profiles
Non ferrous steels
Hard steels
Titanium-alloys
Non ferrous steels
Aluminum-silicum cast
Titanium-alloys
alloys
recommendation
Aluminum
Copper and brass
and similar alloys
Copper and brass
Multilayer-coating
Technical
Non ferrous metals like
Raising of the coating
hardness by reducing the
Extreme low friction
friction.
coefficient and also high
surface hardness
Universal coating for
better saw blade lifetime
Good saw blade life
Low friction coefficient
because of high surface
and high surface hardness
hardness
Good saw blade lifetime at
Good surface finish
high cutting temperature
without side pick-ups due
to smooth coating surface
Special for drycutting
Over 100% higher cuttingor with insuffient cooling
and feed rates when
conditions
sawing
prevention of side pick-ups steel tubes and profiles
50-100% higher
speed and feed rates
32
Solid-Carbide Metal Circular Saw Blades
Circular Friction Saw Blades
The unbeatable
Suitable for steel - aluminum - copper - brass - plastic
Standard program
Diameter
Ø mm
Bore hole
Ø mm
Cutting width
mm
15
20
25
30
32
35
40
45
50
63
80
100
125
150
160
200
5
5/6
5/6/8
8
8
8
8/10
8
10/13
16
22
22
22
32
32
32
0,10 - 6,0
0,10 - 6,0
0,10 - 6,0
0,10 - 6,0
0,10 - 6,0
0,10 - 6,0
0,10 - 6,0
0,15 - 6,0
0,25 - 6,0
0,25 - 6,0
0,25 - 6,0
0,50 - 6,0
0,60 - 6,0
1,00 - 4,0
1,00 - 4,0
1,20 - 4,0
COARSE
Toothform B
Number of teeth
20
20
20
30 24
48 40 32 24 20
48 40 32 24
64 48 40 32 24
80 64 48 40 32
80
64 48 40 32
80
64 48 40
fFine toothing
Toothform A
Number of teeth
64 48 40 32 24
80 64 48 40 32 24
80 64 48 40 32 24
100 80 64 48 40 32
128 100 80 64 48 40
128 100 80 64 48 40
160 128 100 80 64 48
160 128 100 80 64
160 128 100 80 64
160 128 100
160 128 100
160 128 100
200 160 128
Extra fine toothing
Toothform A
Number of teeth
80
80
100 80
100
160
160
128
100
100
120100
96
80
Other executions on request
Suggestive usage:
LINDEMANN Solid-Carbide Metal Circular Saw Blades should only be used on stable and low vibration sawing
and milling machines. Carbide blades should be used on automatic machines and adjusted to minimum
and maximum recommended feed rates only. Manual feed machines are not recommended.
Soluble cutting oils are recommended for cutting steel. Spray-mist systems may be used for non-ferrous
applications. Plastic and cast iron should be cut dry.
Technical Recommendations for an economic use of Carbide Metal Circular
Saw Blades
Materials
Cooling liquids
Steel up to 500 N/mm²
Emulsion 1:20
Steel up to 800 N/mm²
Emulsion 1:15
Steel up to 1300 N/mm²
Emulsion 1:12
Stainless steels
Emulsion 1:10
Alloyed tool steels
Emulsion 1:10
Titanium alloys
Cutting oil
Cast irons
Dry cutting
Copper
Emulsion or spray cooling
Brass
Emulsion or spray cooling
Aluminum
Emulsion or spray cooling
The data recommended in this table are intended only as a guide
Cutting speed
Feed per tooth
Vc = m/min
100 - 180
50 - 90
30 - 50
30 - 70
15 - 40
5 - 55
30 - 90
200 - 500
300 - 500
400 - 2000
fz = mm/Z
0,010 - 0,030
0,007 - 0,025
0,005 - 0,020
0,005 - 0,015
0,005 - 0,012
3 0,003 - 0,008
0,005 - 0,010
0,020 - 0,040
0,010 - 0,040
0,010 - 0,040
Good results withLINDEMANN Metal Circular Saw Blades.
Your LINDEMANN team!
33
made of special steel:
1.2235 - Chrome Vanadium 80CrV2
alternatively
1.2604 - Tungsten Molybdene 73WCrMo V22
fully hardened & tempered to HRC 45 +/-2
hollow ground with hub
Toothform: Parrot shape approx. 5° negative
for peripheral speeds of Vc 100-140m/sec
Standard program
Diameter
mm
Thickness
mm
Bore
mm
Number of Theeth
Flange
mm
300
350
400
400
400
450
450
500
500
510
510
520
520
520
550
550
560
560
580
580
600
600
600
650
650
650
700
700
750
750
800
800
800
850
850
900
900
1000
1000
1000
3,0
3,0
2,5
3,0
4,0
3,0
4,0
3,0
4,0
3,0
4,0
3,0
4,0
5,0
4,0
5,0
4,0
5,0
5,0
6,0
4,0
5,0
6,0
4,0
5,0
6,0
5,0
6,0
5,0
6,0
5,0
6,0
8,0
7,0
8,0
7,0
8,0
7,0
8,0
10,0
30
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40/50
40/50
40/50
40/50
40/50
40/50
40/50
65/80/100
65/80/100
65/80/100
65/80/100
65/80/100
200
200/220
240/300
240/300
240/300
240/300
240/300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300/350/400
300/350/400
300/350/400
300/350/400
300/350/400
320/350/380
320/350/380
320/350/400
320/350/400
320/350/400
320/350/400
320/350/400
100
120
150
150
150
180
180
240
240
240
240
240
240
240
250
240
240
240
240
240
250
250
250
250
250
250
280
280
280
280
300
300
300
300
300
350
350
450
450
450
34
Heavy duty - Circular Hot Saw Blades
to cut hot materials (800-1000°C)
Diameter
mm
Thickness
mm
Bore
mm
Number of Theeth
Flange
mm
1100
7
100/120/140
240/320/350/400
500
1100
8
100/120/140
240/320/350/400
500
1100
10
100/120/140
240/320/350/400
500
1200
7
100/120/140
240/320/350/400
550
• available up to Ø 2.500 mm
1200
8
100/120/140
240/320/350/400
550
• made of special alloy steels
1200
10
100/120/140
240/320/350/400
550
1300
7
140/180/340
216/340/410
600
• with natural tensile strength or
1300
8
140/180/340
216/340/410
600
1300
10
140/180/340
216/340/410
600
• surface condition
Heavy duty - Circular Friction Saw Blades
to cut pipes, profiles and beams at material
temperatures of <250°C
hardened & tempered on request
1400
7
180/300/360
340/410/440
650
- black rolled
1400
8
180/300/360
340/410/440
650
1400
9
180/300/360
340/410/440
650
- parallel face ground
1400
10
180/300/360
340/410/440
650
1500
8
180/300/360
248/410/440
700
• toothforms and tooth pitches as per
1500
9
180/300/360
248/410/440
700
customers request
1500
10
180/300/360
248/410/440
700
1500
11
180/300/360
248/410/440
700
• also available with hardened tooth tips
1600
8
180/300/480
350/440/500
750
1600
9
180/300/480
350/440/500
750
• for peripheral speeds of 100-140 m/sec
1600
10
180/300/480
350/440/500
750
1600
11
180/300/480
350/440/500
750
• production as per customers drawings
1700
8
320/400/500
350/440/588
800
1700
9
320/400/500
350/440/588
800
1700
10
320/400/500
350/440/588
800
1700
11
320/400/500
350/440/588
800
1800
9
400/500/550
297/370/600
850
1800
10
400/500/550
297/370/600
850
1800
11
400/500/550
297/370/600
850
1800
12
400/500/550
297/370/600
850
1900
10
400/500/550
300/370/600
850
1900
11
400/500/550
300/370/600
850
1900
12
400/500/550
300/370/600
850
2000
10
400/500/550
275/380/600
900
2000
12
400/500/550
275/380/600
900
2000
13
400/500/550
275/380/600
900
2100
14
400/500/550
400/600
950
2200
14
400/500/550
380/580
950
- hollow ground with hub
(50-55 HRC)
Examples of toothforms
1
2
3
4
Other diameters, thicknesses, bore-holes, tooth number or tooth shapes on request.
35
36