Certificate of Accreditation

Transcription

1 PERRY JOHNSON LABORATORY ACCREDITATION, INC. Certificate of Accreditation Perry Johnson Laboratory Accreditation, Inc. has assessed the Laboratory of: RC Calibración, S.A. de C.V. San Nicolás de los Garza, Nuevo León, México (Hereinafter called the Organization) and hereby declares that Organization is accredited in accordance with the recognized International Standard: ISO/IEC 17025:2005 This accreditation demonstrates technical competence for a defined scope and the operation of a laboratory quality management system (as outlined by the joint ISO-ILAC-IAF Communiqué dated January 2009): Mechanical, Mass, Force and Weighing Devices and Dimensional Calibration (As detailed in the supplement) Accreditation claims for such testing and/or calibration services shall only be made from addresses referenced within this certificate. This Accreditation is granted subject to the system rules governing the Accreditation referred to above, and the Organization hereby covenants with the Accreditation body s duty to observe and comply with the said rules. For PJLA: Initial Accreditation Date: Issue Date: Expiration Date: May 08, 2013 August 04, 2017 October 31, 2019 Tracy Szerszen President/Operations Manager Perry Johnson Laboratory Accreditation, Inc. (PJLA) 755 W. Big Beaver, Suite 1325 Troy, Michigan Accreditation No.: Certificate No.: L The validity of this certificate is maintained through ongoing assessments based on a continuous accreditation cycle. The validity of this certificate should be confirmed through the PJLA website: Page 1 of 11

2 Contact: Aldo Cárdenas Pérez. Phone: (81) Mechanical HBW 10/3000 FO HBW 10/1500 FO HBW 10/1000 FO HBW 5/750 FO HBW 10/500 FO HBW 5/250 FO HBW 2.5/187.5 FO HRA FO HRB FO HRC FO HRE FO HR15N FO AND 95 HBW to 653 HBW 1.1 HBW Test Block ISO HBW to 327 HBW 0.93 HBW 31.8 HBW to 218 HBW 2.6 HBW 95.5 HBW to 592 HBW 1.9 HBW 70 HBW to 160 HBW 0.94 HBW 31.8 HBW to 200 HBW 0.68 HBW 90 HBW to 650 HBW 1.1 HBW ASTM E10 ASTM E HRA to 40 HRA 0.43 HRA Test Block 40 HRA to 75 HRA 0.42 HRA ISO ASTM E18 75 HRA to 88 HRA 0.17 HRA 20 HRB to 50 HRB 0.35 HRB 50 HRB to 80 HRB 0.25 HRB 80 HRB to 100 HRB 0.4 HRB 20 HRC to 30 HRC 0.39 HRC 30 HRC to 55 HRC 0.33 HRC 55 HRC to 70 HRC 0.32 HRC 70 HRE to 77 HRE 0.38 HRE 77 HRE to 90 HRE 0.18 HRE 90 HRE to 100 HRE 0.5 HRE 70 HR15N to 77 HR15N 0.43 HR15N 77 HR15N to 88 HR15N 0.42 HR15N 88 HR15N to 92 HR15N 0.5 HR15N Issue 08/2017 This supplement is in conjunction with certificate #L Page 2 of 11

3 Mechanical HR30N FO HR45N FO HR15T FO HR30T FO HR45T FO HV 0.3 kg O HV 0.5 kg O HV 1 kg O HV 5 kg O HV 10 kg O HV 30 kg O AND 42 HR30N to 54 HR30N 0.43 HR30N Test Block 54 HR30N to 73 HR30N 0.29 HR30N ISO ASTM E18 73 HR30N to 80 HR30N 0.28 HR30N 20 HR45N to 31 HR45N 0.47 HR45N 31 HR45N to 61 HR45N 0.46 HR45N 61 HR45N to 70 HR45N 0.18 HR45N 73 HR15T to 80 HR15T 0.28 HR15T 80 HR15T to 87 HR15T 0.30 HR15T 87 HR15T to 93 HR15T 0.45 HR15T 43 HR30T to 56 HR30T 0.56 HR30T 56 HR30T to 69 HR30T 0.23 HR30T 69 HR30T to 82 HR30T 0.28 HR30T 13 HR45T to 32 HR45T 0.63 HR45T 33 HR45T to 52 HR45T 0.62 HR45T 53 HR45T to 73 HR45T 0.41 HR45T 100 HV to 800 HV 100 HV to 800 HV 6.2 HV 6.7 HV Test Block ISO ASTM E384 ASTM E HV to 800 HV 3.6 HV 200 HV to 800 HV 2.7 HV 200 HV to 800 HV 1.5 HV 200 HV to 800 HV 2.9 HV Issue 08/2017 This supplement is in conjunction with certificate #L Page 3 of 11

4 Mechanical Knoop Hardness Tester HK 0.3 kg O Knoop Hardness Tester HK 0.5 kg O Leeb Hardness Tester LD FO Charpy Machine Tester Impact- Low Energy O Charpy Machine Tester Impact- High Energy O Direct Verification of Shore Hardness Tester Types A, B, C, D, DO, E, M, O, OO, OOO & OOO- S (Extension at Zero readings) F AND 100 HK to 800 HK 12 HK Test Block ISO HK to 800 HK 9.6 HK ASTM E384 ASTM E LD to 800 LD 16 HLD Test Block ASTM A J to 20 J 88 J to 150 J 0.89 J 1.7 J Specimens NIST ASTM E23 Specimens ERM ISO mm to 5.04 mm 2.3 µm ASTM D2240 ISO Indenter Shore Diameter, Radius & Angle (Not all Parameters Apply to all of Durometer types) 2.3 µm 0.07 Auto Vision Measuring Machine (Res.= 0.1 µm) Verification of the Shore Durometer Spring Force Type A, B, E & O Type C, D & DO Type M Type OO, OOO Type OOO-S 0.55 N to 8.05 N N to N N to N N to N N to N 0.32 N 0.03 N 0.19 N 0.12 N 0.1 N Load Cell Mass Force & Weighing Devices Force Machines -Traction O and Force Gages - Traction FO AND N to N 0.12 % of reading Load Cells AEP and Interface A Issue 08/2017 This supplement is in conjunction with certificate #L Page 4 of 11

5 Mass Force & Weighing Devices AND Force Machines -Traction O N to N 0.13 % of reading Load Cell Strainsense and Force Gages A Traction FO N to N % of reading Load Cell AEP N to N 0.18 % of reading Load Cells Strainsense B and N to N 0.15 % of reading Load Cells Strainsense and Zwick kn to kn 0.15 % of reading Load Cells AEP and Interface A 2.45 kn to kn 0.16 % of reading Load Cells Strainsense and Interface C 4.90 kn to kn 0.19 % of reading Load Cells Strainsense C and kn to 300 kn 0.11 % reading Load Cell AEP kn to kn 0.12 % of reading Load Cell Strainsense D Issue 08/2017 This supplement is in conjunction with certificate #L Page 5 of 11

6 Mass Force & Weighing Devices Force Machines -Traction O and Force Gages - Traction FO AND N to 1.96 N 1.97 N to 9.8 N N N Class F2 y M1 Weight 9.81 N to 588 N N Force Machines - Compression O 1.96 N to N 0.21 % of reading Load Cell Interface N to N 0.1 % of reading Load Cells AEP and Interface A N to N 0.18 % of reading Load Cell Strainsense A N to N % of reading Load Cells AEP and PT N to N 0.15 % of reading Load Cells Strainsense B and N to N 0.11 % of reading Load Cells Strainsense and Zwick kn to kn 0.11 % of reading Load Cells AEP and Interface A Issue 08/2017 This supplement is in conjunction with certificate #L Page 6 of 11

7 Mass Force & Weighing Devices AND Force Machines kn to kn 0.15 % of reading Load Cells Strainsense Compression O and Interface C 4.90 kn to kn 0.17 % of reading Load Cells Strainsense C and kn to 300 kn 0.13 % of reading Load Cell AEP and Strainsense D kn to kn 0.11 % of reading Load Cell Strainsense D kn to kn 0.12 % of reading Load Cell Strainsense E kn to kn 0.12 % of reading Load Cell Strainsense N to 1.96 N 1.97 N to 9.8 N N N Class F2 y M1 Weight Force Measurement Instruments Traction FO 9.81 N to 588 N N N to N 0.12 % of reading Load Cells AEP and Interface A Issue 08/2017 This supplement is in conjunction with certificate #L Page 7 of 11

8 Mass, Force & Weighing Devices Force Measurement Instruments Traction FO DEVICE SIZE AS AND N to N 0.13 % of reading Load Cell Strainsense A N to N % of reading Load Cell AEP N to N 0.18 % of reading Load Cells Strainsense B and N to N 0.15 % of reading Load Cells Strainsense and Zwick kn to kn 0.15 % of reading Load Cells AEP and Interface A 2.45 kn to kn 0.16 % of reading Load Cells Strainsense and Interface C 4.90 kn to kn 0.19 % of reading Load Cells Strainsense C and kn to 300 kn 0.11 % reading Load Cell AEP kn to kn 0.12 % of reading Load Cell Strainsense D N to 1.96 N N Class F2 y M1 Weight 1.97 N to 9.8 N N 9.81 N to 588 N N Issue 08/2017 This supplement is in conjunction with certificate #L Page 8 of 11

9 Mass, Force & Weighing Devices Force Measurement Instruments Compression FO DEVICE SIZE AS AND 1.96 N to N 0.21 % of reading Load Cell Interface N to N 0.1 % of reading Load Cells AEP and Interface A N to N 0.18 % of reading Load Cell Strainsense A N to N % of reading Load Cells AEP and PT N to N 0.15 % of reading Load Cells Strainsense B and N to N 0.11 % of reading Load Cells Strainsense and Zwick kn to kn 0.11 % of reading Load Cells AEP and Interface A 2.45 kn to kn 0.15 % of reading Load Cells Strainsense and Interface C 4.90 kn to kn 0.17 % of reading Load Cells Strainsense C and kn to 300 kn 0.13 % of reading Load Cell AEP and Strainsense D Issue 08/2017 This supplement is in conjunction with certificate #L Page 9 of 11

10 Mass, Force & Weighing Devices Force Measurement Instruments Compression FO DEVICE SIZE AS AND kn to kn 0.11 % of reading Load Cell Strainsense D kn to kn 0.12 % of reading Load Cell Strainsense E kn to kn 0.12 % of reading Load Cell Strainsense N to 1.96 N N Class F2 y M1 Weight 1.97 N to 9.8 N N 9.81 N to 588 N N Dimensional DEVICE SIZE AS AND Extensometers O mm to 50 mm 0.9 µm Extensometer Calibrator (3590) ASTM E83 ISO 9513 Stage Micrometer (Brinell Microscope & Microscopes) FO Wire Cloth and Sieves for Testing Purposes F mm to 20 mm 1.9 µm Graduate Grid ISO , ASTM E10, JIS mm to 125 mm 1.2 µm Auto Vision Measuring Machine (Res.= 0.1 µm) ASTM E11 NMX-CH The CMC (Calibration and Measurement Capability) stated for calibrations included on this scope of accreditation represents the smallest measurement uncertainty attainable by the laboratory when performing a more or less routine calibration of a nearly ideal device under nearly ideal conditions. It is typically expressed at a confidence level of 95 % using a coverage factor k (usually equal to 2). The actual measurement uncertainty associated with a specific calibration performed by the laboratory will typically be larger than the CMC for the same calibration since capability and performance of the device being calibrated and the conditions related to the calibration may reasonably be expected to deviate from ideal to some degree. Issue 08/2017 This supplement is in conjunction with certificate #L Page 10 of 11

11 2. The laboratories range of calibration capability for all disciplines for which they are accredited is the interval from the smallest calibrated standard to the largest calibrated standard used in performing the calibration. The low end of this range must be an attainable value for which the laboratory has or has access to the standard referenced. Verification of an indicated value of zero in the absence of a standard is common practice in the procedure for many calibrations but by its definition it does not constitute calibration of zero capacity. 3. The presence of a superscript F means that the laboratory performs calibration of the indicated parameter at its fixed location. Example: Outside Micrometer F would mean that the laboratory performs this calibration at its fixed location. 4. The presence of a superscript O means that the laboratory performs calibration of the indicated parameter onsite at customer locations. Example: Outside Micrometer O would mean that the laboratory performs this calibration onsite at the customer s location. 5. The presence of a superscript FO means that the laboratory performs calibration of the indicated parameter both at its fixed location and onsite at customer locations. Example: Outside Micrometer FO would mean that the laboratory performs this calibration at its fixed location and onsite at customer locations. 6. Measurement uncertainties obtained for calibrations performed at customer sites can be expected to be larger than the measurement uncertainties obtained at the laboratories fixed location for similar calibrations. This is due to the effects of transportation of the standards and equipment and upon environmental conditions at the customer site which are typically not controlled as closely as at the laboratories fixed location. Issue 08/2017 This supplement is in conjunction with certificate #L Page 11 of 11