loading

PPE Testing Equipment Manufacturer | Safety Equipment Testing Machines | GESTER


Products

Research on Qualitative and Quantitative Analysis Method of Seaweed Fiber

At present, in the development of textiles, the most used textile fibers are natural fibers, regenerated fibers and synthetic fibers. Among them, the main raw material of synthetic fiber is petroleum, which is a non-renewable resource. With the increasing shortage of petroleum resources, coupled with the problems of high consumption and high pollution in production, synthetic fibers are facing great pressure, so all countries are researching, developing and utilizing Other fibers replace synthetic fibers, and the most ideal fiber that can replace synthetic fibers is biodegradable fiber. Biodegradable fiber is an environmentally friendly material. It provides a way for humans to reduce the burden on the environment and achieve a balance between modern civilization and nature. Therefore, it will become one of the main fibers in the 21st century. The seaweed fiber is a kind of biodegradable fiber. After human beings grow cotton, hemp, grow mulberry and raise silkworms, they need fiber from the land and extract oil to find fiber from underground. The ocean wants fiber. Seaweed fiber is a kind of fiber made by spinning the material extracted from natural seaweed. It is an important new natural functional fiber material. Brown algae and red algae are the best sources of seaweed fiber. This fiber can be processed into staple fibers or filaments of any length and denier, and can also be blended with other fibers, and finally can be used to make clothes, home textiles, mattresses, etc. Seaweed fiber has many new characteristics that traditional fibers do not have, such as moisture absorption, antibacterial, flame retardancy, radiation protection, heat preservation and other characteristics. As a national-level professional textile product inspection agency in the seaweed fiber research and development site (Qingdao), it has the responsibility and obligation to make a contribution to the promotion of local industrial development. Therefore, from a professional perspective, the scientific research team of our institute has not yet entered a large number of seaweed fiber products. Before the market, the research on the method of measuring the blending ratio of seaweed fiber and other fibers will lay the foundation for the smooth entry of this new textile material into the market and the people's life. 1 Qualitative analysis of seaweed fiber [3-5] 1.1 Appearance Pure seaweed fiber is white, with smooth surface, soft luster, soft hand, and good drape. 1.2 Burning test method 1.2.1 Test equipment and tools Balance, lighter or alcohol lamp, tweezers, magnifying glass, petri dish, scissors 1.2.2 Reagent ethanol 1.2.3 Test method Pull about 10mg sample into thin bundles, and clamp it with tweezers , Slowly approach the flame and observe the reaction of the sample to heat (melting, shrinkage). Then move the sample beam into the flame and observe the burning situation in the flame. Then leave the flame, pay attention to observe the burning state of the sample and smell the smell when the flame is just extinguished. After the sample cools, observe the ash status of the residue. Record the details of the combustion process, see Table 1. 1.3 Microscope observation method 1.3.1 Test instruments and tools Harbin slicer, blade, small rotary drill, tweezers, picking needle, scissors, glass slide, cover glass, biological microscope Wait. 1.3.2 Reagent liquid paraffin and collodion test methods 1.3.3.1 Observe longitudinally, pull the samples into narrow bundles and arrange them, take samples of appropriate length and spread them evenly on the glass slide, add a small amount of liquid paraffin (note Do not bring in air bubbles), cover with a cover glass, and place it on the stage of a 100-fold to 500-fold biomicroscope to observe its shape, and record the longitudinal characteristics of the sample. (See Figure 1) 1.3.3.2 Cross-section observation Put the cross-section of the sample prepared with the Ha-type slicer on a glass slide, add a small amount of liquid paraffin, and cover it with a cover glass (be careful not to bring in air bubbles), Place it on the stage of a biological microscope of 100 times to 500 times to observe its shape, and record the cross-sectional characteristics of the sample. (See Figure 2) 1.4 Chemical dissolution method 1.4.1 Test instruments and tools Constant temperature oven, electric constant temperature water bath, analytical balance, glass sobbing filter bottle, beaker, test tube, wooden clamp, tweezers, glass rod, crucible tongs, etc. 1.4.2 Reagent 1.4.3 Test method Put about 100mg sample in a test tube and inject 10ml solvent (the bath ratio of sample and reagent is 1:100). At room temperature, stir with a glass rod for 5 minutes to observe the dissolution of the sample by the solvent. For samples that are difficult to dissolve at room temperature, do a boiling test and stir with a glass rod for 3 minutes, depending on the degree of dissolution. Record the dissolution of the sample in various solvents and conditions, see Table 2. Note: The test should be carried out in a fume hood, because many solvents are highly volatile and toxic. Open flames should not be used when heating. Pay attention to fire safety, because many reagents are flammable. 2 Quantitative analysis of seaweed fiber blended with other fibers [6-9] Through the above series of qualitative analysis of seaweed fiber, it is not difficult to find: 1) The 75% sulfuric acid solution method can be used to determine whether the seaweed fiber and other (such as polyester Fiber, polypropylene, aramid, etc.) do not dissolve the fiber blending ratio in 75% sulfuric acid solution. 2) The 30% sodium hydroxide solution boiling method can be used to determine the blending ratio of seaweed fiber and other (such as cotton, viscose, lyocell, modal, etc.) insoluble fiber in 30% sodium hydroxide solution. 3) Determine the blending ratio of seaweed fiber with nylon by using its insoluble property in hydrochloric acid (normal temperature). 4) Using the insoluble properties of seaweed fiber in dimethylformamide to determine its blending ratio with acrylic fiber and spandex respectively.

GESTER International Co.,Limited is specialized in sourcing tensile tester manufacturers textile testing equipment through its unparalleled worldwide network of supply. Go to GESTER Instruments, you will surely find your ideal at the most favorable price.

If you are ready to stop the problem of tensile tester manufacturers and go back to normal, contact us at GESTER Instruments. GESTER International Co.,Limited is ready to help you out.

We utilize our expertise to develop services that add value at each phase of thetextile testing equipment development cycle. We evaluate and implement new strategies in response to changing customer profiles and market conditions.

GET IN TOUCH WITH Us
recommended articles
EN ISO 20345 Safety Footwear Standard — How to Choose the ISO 20345 Tester
EN ISO 20345 is the core international standard for general-purpose safety footwear, defining minimum performance requirements for foot protection against various workplace hazards. This article elaborates on the definition, key highlights and mainstream safety classes of the EN ISO 20345 standard, covering applicable industry scenarios. It further provides a systematic step-by-step guide for selecting qualified ISO 20345 testing equipment, involving test item confirmation, equipment performance evaluation and reliable supplier selection. Finally, it introduces professional ISO 20345-compliant testing solutions provided by GESTER for footwear manufacturers and third-party testing institutions.
GESTER: China Top PPE Testing Equipment Company Leading Global Safety Standards
Since 1997, GESTER International Co., Ltd has emerged as China’s top PPE testing equipment company, with 25+ years of R&D experience in high-precision testing instruments. Serving clients in over 160 countries and partnering with global leaders like SGS, Intertek, and TUV, GESTER aligns its products with international standards (ISO, ASTM, EN, GB) to ensure reliable PPE performance. Highlighted by the GT-RC02B TPP Thermal Protection Tester—capable of simulating extreme thermal environments and calculating critical safety metrics like TPP values and escape time—and the GT-KC28 TDM Cut Test Machine, GESTER’s portfolio covers thermal protection, cut resistance, footwear testing, and more. The company offers comprehensive support, including ISO 17025/NFPA-aligned calibration, on-site installation, and staff training, empowering PPE manufacturers and testing laboratories to meet stringent global regulations, prevent workplace injuries, and accelerate market access. As a leader in global safety standards, GESTER combines technical precision, user-centric design, and lifecycle service to deliver tailored solutions for high-risk industries worldwide. Visit https://www.gesterinstruments.com/ for full product details.
ISO 20344 Tester – Tested by ISO 20344 Standard
EN ISO 20344 is the core international test method standard for full-performance detection of safety footwear. This article systematically explains the full range of whole-shoe test items covered by the ISO 20344 standard, analyzes the core practical advantages of mandatory ISO 20344 testing for factories and laboratories, and matches a complete set of dedicated ISO 20344 testers one by one. It also sorts out mainstream associated safety footwear standards worldwide, providing one-stop standardized testing solutions for safety footwear manufacturers, third-party testing institutions and occupational safety supervision departments.
How to Improve the Accuracy of a Martindale Tester
Ensuring the accuracy of your Martindale abrasion and pilling tester is critical for reliable textile quality control. This guide details essential steps, from precise sample preparation and correct machine operation to routine maintenance. We also explore how advanced testers, like the GESTER model with its dual-servo drive and tool-free operation, are engineered to eliminate common sources of error and enhance testing precision for superior results.
How to Test Firefighter Turnout Gear Thermal Protection?
Firefighter turnout gear plays a critical role in protecting firefighters operating in extreme environments involving high temperatures, flames, radiant heat, and convective heat. Its thermal protective performance directly affects firefighter safety and survival during fireground operations. This article explains how to test firefighter turnout gear thermal protection through Thermal Protective Performance (TPP) testing. It introduces the scientific principle based on the Stoll curve, outlines key influencing factors such as heat flux intensity and exposure time, and reviews internationally recognized standards including NFPA 1971 and ISO 17492. The article also highlights the testing advantages of the GT-RC02 TPP Thermal Protection Tester, which provides accurate, stable, and standards-compliant evaluation of flame-retardant protective clothing materials under combined radiant and convective heat exposure.
How to Choose Light Fastness Tester: Water-Cooled and Air-Cooled
Choosing between water-cooled and air-cooled light fastness testers depends on precision needs, budget, and application. Water-cooled testers (like GESTER GT-3000) offer superior spectral accuracy and stability for rigorous standards (e.g., automotive, coatings). Air-cooled models (like GESTER GT-D02A-1) provide energy efficiency and easier installation for routine QC. This guide compares cooling methods, features, and applications to help you select the optimal tester.
Which Safety Footwear Test Method Is Suitable for You?
Selecting the correct safety footwear test method is essential for ensuring product durability, worker protection, and international compliance. Different tests evaluate different performance characteristics, including impact resistance, slip resistance, and outsole abrasion. This article explains how each testing method works, the applicable ISO, ASTM, DIN, and SATRA standards, and when manufacturers should use each test to improve product quality, reduce failures, and meet global certification requirements.
Everything You Need to Know About Programmable Temperature Humidity Chamber
A Programmable Temperature Humidity Chamber simulates environmental conditions to test product durability, stability (like shelf life & ageing), and performance across materials, electronics, automotive parts, food, and pharmaceuticals. This guide explains its five core systems (Control, Refrigeration, Heating, Humidity, Air Circulation) and their functions for precise testing.
Why Is Shoe Slip Resistance Tester Important for Footwear Safety?
Slip resistance is one of the most critical performance indicators for modern footwear, especially safety shoes used in industrial and high-risk working environments. Slip and fall accidents frequently occur on wet or smooth surfaces, posing serious risks to workers and consumers. To prevent such accidents and improve product safety, footwear manufacturers widely use professional testing equipment such as Shoe Slip Resistance Tester and Footwear Slip Testing Machine. These devices simulate real walking conditions to measure the coefficient of friction between the shoe sole and various surfaces. This article explores the working principle, features, applications, and industry significance of shoe slip safety tester, explaining why accurate slip resistance testing is essential for footwear safety, product development, quality control, and compliance with international standards.
Why TDM Cut Test Machine GT-KC28 Is Needed in PPE Testing

Cut resistance is one of the most critical performance indicators in personal protective equipment (PPE) testing, directly affecting worker safety in high-risk industries such as metal processing, machinery manufacturing, and emergency rescue. The TDM Cut Test Machine GT-KC28 plays a vital role in accurately evaluating the cut resistance of PPE products, including gloves, protective clothing, footwear materials, composite materials, rubber, and industrial textiles.

By adopting high-precision force control systems, intelligent data processing, and stable transmission technology, the GT-KC28 TDM Cut Tester can accurately measure the critical cutting force of materials and ensure excellent repeatability and comparability of test results. Its user-friendly touch-screen operation, comprehensive data storage, USB data export, and built-in thermal printer greatly improve laboratory efficiency and data traceability.

The TDM Cut Test Machine GT-KC28 fully complies with major international and national standards such as ISO 13997, EN 388, ASTM F2992/F2992M, ANSI/ISEA 105, and GB 24541-2022, making it a reliable solution for PPE manufacturers, third-party testing laboratories, and research institutions. Through precise and standardized cut resistance testing, the GT-KC28 helps reduce industrial cutting injuries, supports PPE certification across global markets, and ensures that protective equipment delivers reliable safety performance in real-world applications.
GESTER International Co., Ltd. gains certificates of ISO 9001, 3A and SGS Audited supplier etc. with advanced design concept, excellent manufacturing technology and strict quality control.
WeChat
Contact us
Tel: +86-595-28886108 
Fax: +86-595-22515221
E-mail: sales10@gester-instruments.com,
                 info@gester-instruments.com
Mobile/Whatapp/ Wechat:  
             + 86(0)18059985379
Address:  Block 402,4th floor, f buliding, shengfulan business Center, no.577 jitai road, economic and  Technological development zone quanzhou of fujian.China.
Customer service
detect