doc(A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 1 of 5 SCOPE
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(A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 1 of 5 SCOPE
SCOPE OF ACCREDITATION TO ISO/IEC 17025:2005 TUV SUD AMERICA - AUBURN HILLS1 1670 Harmon Rd. Auburn Hills, MI 48326 Richard Hatmaker Phone: 616-546-4611 MECHANICAL Valid To: June 30, 2016 Certificate Number: 2955.03 In recognition of the successful completion of the A2LA evaluation process, accreditation is granted to this laboratory at the location listed above, as well as the satellite laboratory location listed below, to perform the following automotive, aerospace, medical products, and telecommunications tests: Mechanical Shock: Up to 100 G’s, Drop Test from 10 meters. Thermal Testing: Custom Profiles (-100 to 374) °F Temperature and Humidity: Temperature up to 194 °F; Relative Humidity up to 97 %RH. Thermal shock: (-100 to 374) °F. Vibration: Sine and Random, 3 Axis and Simultaneous Dual Axis Vibration, Frequency Range (5 to 5,000) Hz, Force Pound Rating to 12,000 lbf., Table Sizes up to 4 ft x 12 ft. Environmental Vibration: Temperature (-100 to 350) °F and Relative Humidity (10 to 97) %RH Battery Testing: (0 to 900) VDC; (-1,000 to 1,000) ADC; (-250 to 250) kW. Voltage: (0 to 900) VDC; (-1,000 to 1,000) ADC; (-250 to 250) kW. Amps: (0 to 6,000) A Resistance: (0 to 100G) Ohms Environmental Life Cycle Durability/Fluid Dynamics: Custom Liquid Temperature, Pressure and/or Flow Profiles ranging from (-10 to 100) °F, (0 to 100) PSI and (0 to 15) gpm, respectively. Durability/Cycling Testing: Utilizing fixtures with Pneumatic Actuators up to 12 inches stroke and up to 2,000 lbs at Ambient, or using custom Thermal/Humidity Profiles from (-40 to 300) °F and (10 to 97) %RH Water Tests: Up to 1,500 PSI, up to 22 GPM and up to 194 °F Hydraulic Capabilities: Up to 110,000 lbs. load, up to 40 inches of travel Test Technology/ Equipment Capabilities: Test Method(s)2: Durability / Cyclic Reliability* Chrysler PF-10817 Electric Energy Storage System Testing* -Transport of Dangerous Goods UN ST/SG/AC.10/11, Section 38.3.4: 38.3.4.1 Altitude Simulation; 38.3.4.2 Thermal Test; 38.3.4.3 Vibration; 38.3.4.4 Shock; 38.3.4.5 External Short Circuit; 38.3.4.6 Impact; 38.3.4.7 Overcharge; 38.3.4.8 Forced Discharge (A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 1 of 5 Test Technology/ Equipment Capabilities: Test Method(s)2: Electric Energy Storage System Testing* Electric and Hybrid Electric Vehicle Rechargeable Energy Storage System Safety and Abuse Testing SAE J2464, Section 4: 4.3.1 Shock Test; 4.3.2 Drop Test; 4.3.3 Penetration Test; 4.3.4 Roll Over Test; 4.3.5 Immersion Test; 4.3.6 Crush Test; 4.4.2 Thermal Stability Test; 4.4.4 Thermal Shock Cycling; 4.4.5 Passive Propagation Resistance Test; 4.5.1.1.1 Cell Hard Short; 4.5.1.1.2 Cell Soft Short; 4.5.2 Overcharge Test; 4.5.3 Overdischarge Test Freedom CAR Battery Test Manual* Rechargeable Energy Storage System Safety and Abuse Testing DOE/ID-11069: 3.2 Static Capacity Test; 3.3 Hybrid Pulse Power Characterization; 3.4 Self Discharge; 3.5 Cold Cranking; 3.6 Thermal Performance Test; 3.7 Energy Efficiency Test; 3.9 Cycle Life Test; 3.10 Calendar Life Test Fuel Tank Testing* Fuel Tank Specification-Plastic Chrysler PF-8950 (2009): 7.2 Climatic Cycle Test; 7.3 Pressure/Vacuum Cycling and Deflection; 7.5 Slosh; 7.6 Assembly Shake/Vibration Durability; 7.7 Vibration Resonance and Frequency Response Environmental Life Cycle / Durability* PF 10827 (2008); GM 9505P (2005), 9080P (Section 5.6); SAE J2044, Section 7.5 (2002); GMW 14785, GMW 14124 Humidity* GMW 3431 (Section 4.4.5); GMW 3172 (Sections 9.4.5 and 9.4.6); MIL-STD-810, Method 507; IEC 68-2-38 Mechanical Shock Testing* GMW 3172 (Sections 9.3.3, 9.3.4 and 9.3.5); GMW 3431 (Section 4.3.11); MIL-STD-810, Method 516 Temperature / Thermal Shock* PF-10388 (Section 3.2) (2004); GM 9505P (2005); GMW 3172 (Sections 8.4.2 to 8.5.1, 9.4.1 to 9.4.3); GMW 14124; MIL-STD-810, Method 501, 502, and 503 (A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 2 of 5 Test Technology/ Equipment Capabilities: Test Method(s)2: Vibration* (Including Environmental Vibration) Chrysler PF- 10827 (2008); GM 9110P (Section 7.7); GMW 3172 (Section 9.3.1); GMW 3431 (Section 4.3.12); MIL-STD-810, Method 514; SAE J2380 (1998) Material Evaluations* Cleanability / Solvent Rub Impact Resistance Cycle Crack Fluid Resistance Resistance to Heat Age Cold Crack Impact Resistance Water Tests* LP-463PB-31-01 (2007) LP-463PB-19-01 LP-463PB-22-01 LP-463PB-31-01 (2007); GMW 3431 (Section 4.5.1) MS-JP7-5; 463LB-13-01; PF-11084 Nissan M0134 (2002) DIN 40 050-9; ISO 16750-4 Section 5.4 *Including customer supplied and industry specifications directly related to the test technologies and parameters listed above. 1 This accreditation covers testing performed at the main laboratory listed above, and the satellite laboratory listed below: (A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 3 of 5 TUV SUD AMERICA - AUBURN HILLS 1755 Atlantic Blvd. Auburn Hills, MI 48326 Richard Hatmaker Phone: 616-546-4611 Thermal Testing: Custom Profiles (-58 to 302) °F Temperature and Humidity: Temperature up to 194 °F Relative Humidity up to 97 %RH Thermal shock: (-85 to 347) °F Mechanical Shock: Up to 100 G’s Vibration: Sine and Random, Frequency Range (5 to 2,000) Hz, Force Pound Rating to 2,200 lbf., Table Sizes up to 4 ft x 4 ft. Environmental Vibration: Temperature (-58 to 302) °F and Relative Humidity (11 to 97) %RH Environmental Life Cycle Durability/Fluid Dynamics/Corrosion/Erosion: Custom Liquid Temperature, Pressure and/or Flow Profiles ranging up to 230 °F, (0 to 60) PSI and (0 to 50) gpm, respectively. Altitude Testing: Up to 50,000 ft, with custom profiles (-85 to 302) °F Test Technology/ Equipment Capabilities: Test Method(s)2: Electric Energy Storage System Testing* -Transport of Dangerous Goods UN ST/SG/AC.10/11, Section 38.3.4: 38.3.4.1 Altitude Simulation; 38.3.4.2 Thermal Test; 38.3.4.3 Vibration; 38.3.4.4 Shock Environmental Life Cycle / Durability* GM 9505P (2005), 9080P (Section 5.6); SAE J2044, Section 7.5 (2002); GMW 14785, GMW 14124 Humidity* GMW 3431 (Section 4.4.5); GMW 3172 (Sections 9.4.5 and 9.4.6); MIL-STD-810, Method 507; IEC 68-2-38 Temperature/ Thermal Shock* PF-10388 (Section 3.2) (2004); GM 9505P (2005); GMW 3172 (Sections 8.4.2 to 8.5.1, 9.4.1 to 9.4.3); GMW 14124; MIL-STD-810, Methods 501, 502, and 503 Vibration* (Including Environmental Vibration) GM 9110P (Section 7.7); GMW 3172 (Section 9.3.1); GMW 3431 (Section 4.3.12); MIL-STD-810, Method 514 Altitude* MIL-STD-810D, Method 500.2; GMW 3172 (Rev F, Section 4.2.8); SAE J1455 (A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 4 of 5 Test Technology/ Equipment Capabilities: Test Method(s)2: Dust Testing* GMW 3172 (Section 9.5.1); GMW 3431 (Section 4.4.9) Corrosion/Erosion* ASTM D2570, GMW14193 (2008) Section 4.12 Eye Protectors for Selected Sports ASTM F803 Eye Protective Devices for Paintball Sports ASTM F1776 Safety Specification for Bunk Beds ASTM F1427 Safety Standard for Entrapment Hazards Bunk Beds 16 CFR 1213 Requirements for Bunk Beds 16 CFR 1513 Furniture Tests Safety and Performance Test Requirements for Bunkable and Loftable Beds, Beds with Drawers and Drawer Units for use Under Beds GSA 3FNE 99-582D *Including customer supplied and industry specifications directly related to the test technologies and parameters listed above. 2 When the date, revision, or edition of a test method standard is not identified on the scope of accreditation, the laboratory is required to be using the current version within one year of the date of publication, per part C., Section 1 of A2LA R101 - General Requirements - Accreditation of ISO-IEC 17025 Laboratories. (A2LA Cert. No. 2955.03) Revised 04/01/2015 Page 5 of 5 A2LA has accredited TUV SUD AMERICA - AUBURN HILLS Auburn Hills, MI for technical competence in the field of Mechanical Testing This laboratory is accredited in accordance with the recognized International Standard ISO/IEC 17025:2005 General Requirements for the Competence of Testing and Calibration Laboratories. This accreditation demonstrates technical competence for a defined scope and the operation of a laboratory quality management system (refer to joint ISO-ILAC-IAF Communiqué dated 8 January 2009). Presented this 13th day of June 2014. _______________________ President & CEO For the Accreditation Council Certificate Number 2955.03 Valid to June 30, 2016 For the tests to which this accreditation applies, please refer to the laboratory’s Mechanical Scope of Accreditation.
