eurosatory 1440
idex 2017 (2) 600
guodun armor idex2023 (1) 600
dsa 600
milipol 2019 600

Test report of 1600D UHMWPE Fiber in 2008

The test sample is 1600D/480F UHMWPE fiber in original white color and test by CTTC in 2008 and the tenacity was 27.7cN/dtex. Tested Item Result Standard Breaking Tenacity 27.7cN/dtex ISO 2062-1993 CV of breaking tenacity 5.30% Breaking elongation 2.40% CV of breaking elongation 8.52% *The test results are transferred from below Chinese version. Part view of UHMWPE fiber test report – 1600D/480F

Read More »

Test report of 1600D UHMWPE Fiber in 2014

The test sample is 1600D/960F UHMWPE fiber in original white color and test by CTTC in 2014 and the tenacity was 31cN/dtex. Tested Item Result Standard Linear Density 1742.2dtex GB/T 19975-2005 Breaking Tenacity 31cN/dtex GB/T 19975-2005 CV of breaking tenacity 5.99% GB/T 19975-2005 Breaking elongation 3.20% GB/T 19975-2005 CV of breaking elongation 6.81% GB/T 19975-2005 Melting Point 140 degrees FZ/T 01057.6-2007 *The test results are transferred from below Chinese version. Part view of UHMWPE fiber test report – 1600D/960F

Read More »

Test report of 1600D UHMWPE Fiber in 2019

The test sample is 1600D/480F UHMWPE fiber in original white color and test by CTTC in 2019 and the tenacity was 32cN/dtex. Tested Item Result Standard Linear Density 1772.8dtex GB/T 19975-2005 Breaking Tenacity 32cN/dtex GB/T 19975-2005 CV of breaking tenacity 2.78% GB/T 19975-2005 Breaking elongation 3.36% GB/T 19975-2005 CV of breaking elongation 6.88% GB/T 19975-2005 Initial Modulus 1440cN/dtex GB/T 19975-2005 *The test results are transferred from below Chinese version. Part view of UHMWPE fiber test report – 1600D/480F

Read More »

Test report of 800D UHMWPE Fiber in 2021

The test sample is 800D UHMWPE fiber in original white color and test by DXLL in 2021 and the tenacity was 45.01cN/dtex. Tested Item Result Standard Linear Density 886dtex GB/T 14343-2008 Breaking Tenacity 45.01cN/dtex GB/T 19975-2005 CV of breaking tenacity 2.79% GB/T 19975-2005 Breaking elongation – GB/T 19975-2005 CV of breaking elongation – GB/T 19975-2005 Initial Modulus 1686cN/dtex GB/T 19975-2005 *The test results are transferred from below Chinese version. Part view of UHMWPE fiber test report – 800D

Read More »

Test report of bulletproof plate NIJ Level III+/RF1 – HB90

Summary of bulletproof plate NIJ level III+/RF1 test report Test Sample 25x30cm pure PE plate ~1.17kg/pc (made from ~17kg/m2 HB90 bulletproof fabric) Test Standard NIJ 0101.06 III 7.62x39mm MSC (stand-alone) Test Ammunition 7.62x39mm rifle cartridge (AK47 MSC) x 6 shots Test By Chinese Army Testing Center Test Time 2019 Test Result All passed testing for NIJ 0101.06 level III+/RF1 Test report of bulletproof plate NIJ Level III+/RF1

Read More »
guodun soft armor panel (8)

How to make a bulletproof vest?

A bulletproof vest, also known as a ballistic vest or body armor, is a type of protective clothing designed to absorb and reduce the impact of bullets and other projectiles to minimize injury to the wearer. These vests are commonly worn by military personnel, law enforcement officers, security guards, and individuals in high-risk professions where firearms may be encountered. Bulletproof vests are typically made of multiple layers of specialized materials, such as Kevlar®, Dyneema®, or other high-strength synthetic fibers. These materials are woven or layered together to create a strong and flexible barrier that can withstand the force of bullets. The effectiveness of a bulletproof vest depends on its design, the quality of materials used, and the specific threat level it is designed to protect against. Bulletproof vests are available in various levels of protection, which are typically categorized by the type of ammunition they can withstand. These levels are established by organizations like the National Institute of Justice (NIJ) in the United States and range from Level IIA (designed to stop lower-velocity handgun rounds) to Level IV (designed to stop high-velocity rifle rounds). Higher-level vests offer greater protection but may also be heavier and less flexible. It’s important to note that while bulletproof vests can provide substantial protection against firearms, they are not entirely “bulletproof.” There are limitations to their effectiveness, and they may not protect against certain types of ammunition, close-range shots, or shots to unprotected areas of the body. Moreover, no protective gear can guarantee complete safety, and the effectiveness of a vest may degrade over time or with wear and tear. The use of bulletproof vests is an important safety measure for individuals facing potential firearm threats, and their design and technology continue to evolve to enhance protection while maintaining comfort and flexibility for the wearer.

Read More »
bulletproof ceramic tiles and base plate

How to make a bulletproof plate?

The bulletproof plate is part of the high protection of body armor required to meet NIJ standard level III or IV. It means required to against rifle or high power bullets like 7.62x51mm NATO ball, 7.62x39mm AK47 MSC, 5.56x45mm SS109, .30 M2 AP, or similar. The soft armor vest always designed for handguns so, it required the bulletproof plate together. The bulletproof plate is rigid with the single or multi-curve. It calls a hard armor panel (HAP) or SAPI or ESAPI. And it always uses two pieces per body armor at the front and back to protect major organs of the body. To make one bulletproof plate, required to follow steps and it also suitable for making a bulletproof shield or armored vehicle panel. Step 1: Choose structure of bulletproof plate Regular has two structures of the bulletproof plate in the market today. One is pure PE and another is with ceramics. That has steel plate before but not use too much today because of too heavy. Pure PE only suitable for NIJ level III, III+ or RF1 up to RF2 plate The ceramic plate can use for all protect levels including level III up to IV / RF3 Step 2: Choose ceramic if required That has three types of ceramic canbe use in market today. >99% Alumina Oxide (Al2O3) Ceramic: weight ~3.9kg/mm, cheaper but heavy >85% Silicon Carbide (SiC) Ceramic: weight ~3.2kg/mm, competitive >85% Boron Carbide (B4C) Ceramic: weight ~2.2kg/mm, lightweight but expensive Alumina Oxide is a very low-cost solution today but silicon carbide is more welcome because of its lightweight. Boron carbide will be more use in future but its cost too high today. And for the ceramic, that has hexagon tiles, square tiles, or monolithic to choose from in the market. It is depending on the cost

Read More »
44magnumaftershot

Test report of bulletproof fabric NIJ IIIA – SB130 40 layers

Summary of bulletproof fabric NIJ IIIA test report Test Sample 40 Layers SB130 UHMWPE UD only (without anti-trauma foam at back) Test Standard NIJ 0101.06 IIIA Test Ammunition .44 Magnum SJHP 240gr x 6 shots Test By U.S H.P white lab Test Time 2013 Test Result All passed testing for NIJ IIIA Test report of bulletproof fabric NIJ IIIA

Read More »
bulletproof test sample 03 sb130 42

Test report of bulletproof fabric NIJ IIIA – SB130 42 layers

Summary of bulletproof fabric NIJ IIIA test report Test Sample 42 Layers SB130 UHMWPE UD only (without anti-trauma foam at back) Test Standard NIJ 0101.06 IIIA Test Ammunition .44 Magnum SJHP 240gr x 6 shots Test By U.S H.P white lab Test Time 2009 Test Result All passed testing for NIJ IIIA Test report of bulletproof fabric NIJ IIIA

Read More »
bulletproof test sample 02 sb130 44

Test report of bulletproof fabric NIJ IIIA – SB130 44 layers

Summary of bulletproof fabric NIJ IIIA test report Test Sample 44 Layers SB130 UHMWPE UD only (without anti-trauma foam at back) Test Standard NIJ 0101.06 IIIA Test Ammunition .44 Magnum SJHP 240gr x 6 shots Test By U.S H.P white lab Test Time 2009 Test Result All passed testing for NIJ IIIA Test report of bulletproof fabric NIJ IIIA

Read More »

Your Requirements