久久国内外免费视频_日本黄三级视频_一本大道在线观看无码一区_8050网午夜一级毛片

×

YG026HK universal strength tester

Video
Gallery
360°Show
×
×
×
Applicable scope
Test principles and standards
Instrument characteristics
Configuration list
For all kinds of textile tensile,tear,bursting,elongation,load,elastic,seam,slippage and stripping test of mechanical properties,and it is widely used in rubber,plastics,leather,metal,wire,paper,packaging,building materials,petrochemical,electrical,tensile,geotextile material compression,bending,bonding,peeling,tearing and bursting,creep test stress,elongation and deformation test.

Category

Serial number

Standard
number

Standard name


Speed
mm/min



Clip 
distance 
mm



Sample 
size(W×L)
mm


Domestic standard

Yarn

1

2

GB/T 3916-1997

FZ/T 50007-2012

Determination of breaking strength and elongation at break of
single yarns

500

50

500

500

≥500

≥500

Clothing

3

4

5

FZ/T 80007.1-2006

FZ/T 20019-2006

FZ/T 70007-1999

Test method for peeling strength of adhesive linings
Test method of stitching degree of wool fabric
Test method for armpit seam strength of knitted jacket

100

50

200

50

≥75

100

25×150

100×175

According to
the standard


Textile
Fabric


6

7

8

9

10

11

12

13

14

15

16

17

18

GB/T 3923.1-2013

GB/T 3923.1-2013

GB/T 3923.2-2013

GB/T 3917.2-2009

GB/T 3917.3-2009

GB/T 3917.4-2009

GB/T 3917.5-2009

FZ/T 01030-1993

FZ/T 70006-2004

GB/T 13772.1-2008

GB/T 13772.2-2008

GB/T 13772.3-2008

FZ/T 01031-1993

Determination of breaking strength and elongation at break 
Determination of breaking strength and elongation at break 
Determination of breaking strength (grasping method)
Determination of tearing strength of a pair of pants (single slit)
Determination of tearing strength of trapezoid specimens
Tongue (double slit) determination of tear strength
Determination of single slit tear strength of wing specimen
Determination of the strength and expansion of the joints of
knitted and elastic woven fabrics

Test method for elastic resilience of knitted fabric
Determination of slipping of yarns at the joint of a woven
fabric with fixed slip method

Determination of yarn anti slip at the joint of woven fabric
Yarn anti slip of woven fabric joints
Determination of the strength and elongation of the joints of
knitted and elastic woven fabrics

20

100

50

100

100

100

100

100
 

100

50

50

50

300

100

200

100

100

25

100

100



100

100

100

100

75

50×200

50×200

100×200

50×200

75×150

150×220

100×200

≥Φ65

50×100

100×400

100×200

60×300

100×150

Geotextile

19

20

21

22

GB/T 15788-2005

GB/T 13763-2010

GB/T 14800-2010

GB/T 16989-2013

Wide strip tensile test of Geotextiles and their related products
Determination of tearing strength of geosynthetics by trapezoid
method

Static bursting test of geosynthetics (CBR method)
Wide strip tensile test method for joint joint of Geosynthetics

20

50

50

20

100

25

100+

200×200

75×200

≥Φ150

200×150

Zipper

23

QB/T 2171-2001

Metal zipper zipper comprehensive strength test project

300

American Standard

Textile
Fabric


24

26

27

28

29

30

ASTM D5035

ASTM D5034

ASTM D2261

ASTM D5587

ASTM D1683

ASTM D4964

Test method for breaking strength and elongation of textile fabrics
Test method for breaking strength and elongation of textile fabrics
The standard test method for tearing strength of fabrics by the tongue
Standard Test Method for tearing strength of fabrics with trapezium
method

Standard Test Method for fracture of weave fabric joints
Tensile and elongation test of elastic fabric

300

300

50/300

300

305

500

75

75

75

25

75

250

25×150

100×150

75×200

75×150

100×350

100×350

British Standard

Textile
Fabric


31

32

BS EN ISO 13934.1

BS EN ISO 13934.2

Determination of breaking strength and elongation at break
by strip method

Determination of breaking strength and elongation at break
by grasping the sample method

100

50

200

100

50×200

100×200

1. The transmission system adopts the imported AC servo drive system, the high end quiet planetary reducer, the synchronous belt wheel and the imported precision ball screw component. The instrument beam has a smooth movement, low noise and high elongation.
2. The column of aluminum alloy profile is adopted on the column of the instrument, and the surface of the instrument is treated with high temperature curing spray, and it is resistant to scraping and is not easy to fade.
3. Tthe instrument host uses the touch screen control, the operation is intuitive and simple, and the printer is built in, convenient to use.
4. The instrument adopts a variety of protective measures: the upper and lower limit protection devices of the beam, the clamp collision avoidance protection device, the sensor overload protection, the overcurrent and over voltage protection, and the software of displacement and load limit can be set up. The main components are monitored and displayed the fault information in real time. Therefore the use of the instrument is more safe and reliable.
5. The instrument adopts an open structure. Users can edit the required testing procedures, data analysis formulas and test reports according to the types and characteristics of the materials tested and the requirements of the testing methods. And the instrument can be upgraded and maintained easily through online support.
6. The instrument provides a variety of humanized automatic modes. After the test is finished, the clamp can be set automatically. The instrument holds the distance of the digital setting and is automatically positioned.
7. The instrument can be used on line with professional strength tester. Its software has control instruments, test curve drawing, test data analysis, preservation and management, test report formation, printing and other functions.
8. The instrument can be wireless WiFi communication, tablet computer.