Product Description
It is used to test mechanical properties such as stretching, tearing, bursting, constant elongation, constant load, elasticity, suture slippage, and peeling of various textiles and related materials, and is widely used in rubber, plastics, leather, metal, Force value, elongation, and deformation testing of wires, paper, packaging, building materials, petrochemicals, electrical engineering, and geotechnical materials such as tension, compression, bending, bonding, peeling, tearing, bursting, and creep.
Instrument characteristics:
1. It has the function of automatic positioning of the clamp and automatic calibration of the position of the clamp when changing the position of the clamp, without the need for manual ruler calibration.
2. By limiting the closing air pressure and closing speed of the clamp, it can automatically detect whether the pneumatic clamp has abnormal behavior, reduce human misoperation, and effectively reduce the risk of fingers being pinched by the pneumatic clamp.
3. TEDS sensor automatic identification function. After replacing the sensor, the instrument can automatically identify the measurement range and automatically correct it in the software background.
4. Various grippers can be customized to adapt to different materials and testing standards.
5. The powerful machine comes with hundreds of test procedures and a huge library of preset test methods, which can comply with the most commonly used standards such as GB, FZ, AATCC, ASTM, ISO, JIS, EN, MS, and LTD.
6. Guided operation steps make the operation simpler and more convenient.
7. Standard customization, parameter customization, process customization, result customization, and report customization can be realized.
8. Test reports are presented in various ways (scatter plots, curve charts, raw data, etc.).
9. It has powerful calibration and inspection tool support functions.
10. It has the instrument IoT function to realize the background operating status, fault and other information of the instrument.
11. There are a variety of test unit systems to choose from.
12. The interface design is user-friendly, and the status and fault prompts of the instrument will be displayed immediately upon power-on.
13. Cross beam displacement upper and lower limit stroke, overload protection, overvoltage, overcurrent, overheating, undervoltage, undercurrent, leakage automatic protection, emergency switch manual protection, etc.
14. Ambient light display effect and voice broadcast function
15. Optional high-precision photoelectric or non-contact video extensometer
16. Equipped with a pneumatic replaceable chuck, more than 100 types of grippers are available, and can be customized according to customer materials
Hardware design:
1. The frame is designed to last more than 30 years. The strong and rigid frame of high-strength materials has preloaded bearings and precision ball screws, thickened beams and base beams, and lower tension drive belts to minimize testing. The energy stored in the process results in better testing performance and more accurate modulus and strain values.
2. Precise guide rails with excellent centering and bending When performing axial tests, only systems with stable and precise rigid guide rails can obtain accurate stress and strain results to ensure that the lateral forces experienced by the specimen under load are accurate. The impact is minimal.
3. Larger advanced servo control drive system, higher reliability. The high-power servo motor enables a higher acceleration rate at the beginning of the test and a faster operating cycle during the cycle test. The dual-belt system can keep the ball screw moving synchronously and eliminate the tendency of the beam to tilt and help the system center and accurately position.
Seventh-generation digital signal processing (DSP) control technology based on embedded systems
1. High-speed, low-vibration AC servo drive device imported from Japan, high-resolution digital closed-loop controller.
2. Modular design, multi-channel data acquisition and analog output modules, and open data management can realize detection and control of load, deformation, displacement, speed change, etc.
3. The high-precision imported load sensor adopts high-precision 24 bits A/D, with a sampling frequency of 2000Hz and a maximum resolution of 1/1,00,000 for the entire force.
4. Equipped with a mobile control box, which is easy to move or install on the rack, displays the working status of the machine, and can provide the required control keys, positioning jog buttons and precision positioning thumb wheels during the test control process, which can efficiently move the vehicle. , fine-tuning can be accurate to 0.1 mm.
5. The host control box and the computer have two-way control, and are equipped with fine-tuning precision switches to facilitate fine-tuning control of distance and time after replacing the fixture according to special requirements.
6. Humanized open pneumatic clamp: In order to ensure that the material clamping must be at a vertical center point, the open pneumatic clamp can be completely fed into the upper and lower clamps, and manual intervention is required before clamping to prevent the material from breaking due to irregular clamping. The force value is inaccurate.
Product Related Standards
Determination of breaking strength and elongation at break (strip method)-GBT: GB/T 3923.1-2013
Determination of breaking strength and elongation at break (strip method) - ISO: ISO13934-1:2013
Determination of breaking strength and elongation at break (strip method)-AS: AS 2001.2.3.1:2001 (R2016)
Determination of breaking strength and elongation at break (strip method)-ASTM D: ASTM D5035-2011 (R2019)
Determination of breaking strength and elongation at break (strip method)-CAN/CGSB: CAN/CGSB-4.2NO.9.1-M90: R2013
Tensile properties-Determination of breaking strength: grab sample method-GBT: GB/T 3923.2-2013
Tensile properties - Determination of breaking strength: Grab sample method - ISO: ISO 13934-2:2014
Tensile properties-Determination of breaking strength: grab sample method-AS: AS 2001.2.3.2-2001 (R2016)
Tensile properties-Determination of breaking strength: Grab sample method-CAN/CGSB: CAN/CGSB-4.2NO.9.2-M90: R2013
Tensile properties - Determination of breaking strength: Grab sample method - ASTM D: ASTM D5034-21
Tear strength: trouser tearing method: GB/T 3917.2-2009
Tear strength: trapezoidal tear: GB/T 3917.3-2009
Tear strength: tongue tear: GB/T3917.4: 2009
Tear strength: wing tear: GB/T3917.5:2009
Tear strength: trouser tear method: ISO 13937-2:2000
Tear strength: trapezoidal tear: ISO 9073-4-2021
Tear strength: trapezoidal tear: ASTM D5587-2015 (R2019)
Tear Strength: Wing Tear: ISO 13937-3:2000
Tear strength: Tongue tear: ISO 13937-4: 2000
Tear strength of rubber or plastic coated fabrics: ISO 4674-1:2016: Method B
Tear strength: ASTM D2261-2013 (2017) e1
Tear strength: AS 2001.2.10: 1986 (R2016)
Textiles - Determination of bursting strength - Steel ball method:
GB/T 19976-2005
FZ/T 01030-2016 Method A
AS 2001.2.19:1988(R2016)
ASTM D3787-16 (2020)
ASTM D6797-2015
CAN/CGSB-4.2 NO.11.2-M89: 1989 (R2013)
Knitted fabrics and elastic woven fabrics - Determination of seam strength and expansion - Burst method: FZ/T 01030-2016 Method B
, Test method for elongation and recovery of wool fabrics: FZ/T 70005-2006
Determination of elasticity of fabrics - Part 1: Strip specimen method: EN14704-1:2005
Determination of elasticity of fabrics - Part 1: Strip specimen method: ISO 20931-1:2018/Amd.1:2021
Breaking strength and elongation test of coated fabrics: ASTM D751-19
Textiles - Test method for tensile elasticity of woven fabrics: FZ/T 01034-2008
Determination of coating peel strength of coated fabrics: FZ/T 01010-2012
Test method for tensile elastic recovery rate of knitted fabrics: FZ/T 70006-2022
Determination of slip resistance of yarns in woven fabrics - Part 1: Fixed seam opening method:
GB/T 13772.1-2008
ISO 13936-1:2004
Determination of slip resistance of yarns in woven fabrics - Part 2: Constant load method:
GB/T 13772.2-2008
ISO 13936-2:2004
Seam strength: strip method:
GB/T 13773.1-2008
ISO 13935-1:2014
Seam strength: Grab sample method:
GB/T 13773.2-2008
ISO 13935-2:2014
Seam slip strength & breaking strength: ASTM D1683/D1683M-2017 (2018)
Extensibility of knitted garment seams: AATCC TS-015
Test method for seam detachment of wool woven fabrics: FZ/T 20019-2006
Knitted fabrics and elastic woven fabrics - Determination of seam strength and elongation - Grab sample method: FZ/T 01031-2016
Tensile elasticity test: elastic recovery LTD03,
(FZ/T70006-20004, FZ/T01034-2008, FZ/T70005-2006) ISO13936.1 and 2, ASTMD434, ASTMD4034, ISO13934.1 and 2, ISO13935.1, MS
P11, P12, P13, P14, NXT16, NXT21, NXT25
Seams Standard test for determining the slip resistance of yarns in woven fabrics: ASTM D434
Test method for gap strength of textile fabrics: JIS L1093
Adhesive lining peel strength test method: FZ/T 01085-2018
Attachments
1. Instrument manual.
2. Instrument warranty card
3. Third-party laboratory calibration report
Company Profile
Founded in 2003, Hengyu Instrument is headquartered in Dongguan City, Guangdong Province. It is a national high-tech enterprise specializing in R&D and manufacturing of various quality testing instruments. Products are widely used in: national quality inspection and commodity inspection institutions, scientific research, colleges and universities, rubber and plastics, shoemaking, leather, textile, metal, luggage, stationery, baby carriages and other industries, for new product development, physical property testing, teaching The necessary equipment for research, quality control, and raw material inspection. The main products are tensile machine, tensile testing machine, universal material testing machine, universal tensile machine, shoe industry, luggage testing equipment, etc.
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