loading

PPE Testing Equipment Manufacturer | Safety Equipment Testing Machines | GESTER


Products

What are the detection methods for leather formaldehyde?

Formaldehyde is a colorless gas with a strong special pungent odor. As a carcinogen, it is the key control object of many regulations. If people live in a room polluted by formaldehyde for a long time, it can cause diseases such as decreased immunity, infertility or fetal malformation, respiratory disease, mental depression, leukemia and cancer. The sources of formaldehyde in life: (1) The formaldehyde in the air mainly comes from industrial production and plastic parts, rubber products, urea-formaldehyde foam, automobile exhaust, etc.; (2) The indoor formaldehyde mainly comes from decorative materials, such as wood, Adhesives and wallpapers, etc.; (3) Formaldehyde can also come from cosmetics, preservatives, printing inks, paper, textile fibers, etc. Formaldehyde is widely used in synthetic resins, surfactants, plastics, rubber, leather, papermaking, dyes, pharmaceuticals, pesticides, photographic films, explosives, building materials, as well as in the process of disinfection, fumigation and anticorrosion. It can be said that formaldehyde is used. Formaldehyde is a generalist in the chemical industry, but the use of anything must be controlled in a limited amount and standard. Once the use exceeds the standard and limit, it will bring a negative side. Formaldehyde detection method: The chemical properties of formaldehyde are very active, so there are many methods for quantitative analysis of formaldehyde, which can be mainly classified into five categories: titration, gravimetry, colorimetry, gas chromatography and liquid chromatography. Among them, the titration method and the gravimetric method are suitable for the quantitative analysis of high-concentration formaldehyde, and the colorimetric method, gas chromatography and liquid chromatography are suitable for the quantitative analysis of trace formaldehyde. 1. Colorimetry Colorimetry is a classic method for the determination of formaldehyde, and it is also a standard method for the determination of formaldehyde in the environment. Using a UV-Vis absorption spectrophotometer (UV—VIS) analysis method has great advantages in analysis limit, accuracy and reproducibility. Just the operation is more complicated. The colorimetric method can be divided into: (1), acetylacetone method. The acetylacetone method uses an equimolar reaction between formaldehyde and acetylacetone in the presence of excess ammonium acetate to generate light yellow 2,6- Dimethyl-3,5-diacetylpyridine was measured colorimetrically at the maximum absorption wavelength of 412-415nm. The method has high precision, good reproducibility, stable color developing solution and less interference. (2) The sulfite fuchsin method (Schiff reagent method) The sulfite fuchsin method is to react fuchsin (rose red aniline) hydrochloride with acidic sodium sulfite and concentrated salt to generate magenta-acid sulfite. Then It reacts with acetylacetone formaldehyde under strong acid (sulfuric acid or hydrochloric acid) conditions to generate a rose-red (purple) salt, and the colorimetric determination is carried out at the maximum absorption wavelength of 552-554 nm. This method is easy to operate, but the sensitivity is low, the color developing solution is unstable, and the reproducibility is poor. It is suitable for quantitative analysis of higher formaldehyde content. (3) Phloroglucinol method Phloroglucinol method is to use formaldehyde and phloroglucinol to generate orange-red compounds under alkaline (2.5mol/L sodium hydroxide) conditions, and colorimetry is carried out at the maximum absorption wavelength of 460nm analyze. The advantages and disadvantages of this method are similar to the Schiff method. (4) The color-changing acid method The color-changing acid method is in the sulfuric acid medium, formaldehyde reacts with chromic acid (1,8-dihydroxynaphthalene-3,6-disulfonic acid) to form a purple compound, which has a maximum absorption wavelength of 568~ Colorimetric analysis was performed at 570 nm. This method has high sensitivity and good stability of the color developing solution, and is suitable for the determination of samples with low formaldehyde content. 2. Because the formaldehyde molecule is too small in chromatography, the peak is too fast when it is directly analyzed by GC, and there is no response in the FID detector; liquid chromatography also flows out at the same time as the solvent peak because the formaldehyde is too polar, and there is no UV Absorption cannot be detected. Therefore, when using chromatography to determine formaldehyde, formaldehyde is generally derivatized first, and then determined by GC or LC. 2,4-Dinitrophenylhydrazine is widely used in the chromatographic determination of formaldehyde as a relatively stable formaldehyde derivatizing agent. The reaction formula of formaldehyde and 2,4-dinitrophenylhydrazine is as follows. Then, the reaction product is extracted by liquid extraction or solid phase extraction with organic solvent. Because liquid-liquid extraction or solid-phase extraction not only increases the operation steps, but also causes the loss of derivatives. Usually, formaldehyde and 2,4-dinitrophenylhydrazine are directly reacted under weakly acidic conditions for liquid chromatography analysis, which does not require organic solvent extraction and avoids the loss of the extraction process. The method is applied to the determination of formaldehyde in actual samples, and the operation is simple and the result is accurate. The test of formaldehyde content is based on the requirements of the standard, and the operation methods are different. It should be comprehensively considered in combination with the test standard and the sample. If necessary, colorimetry and liquid chromatography should be used for comparison and verification to ensure the accuracy of the data. The test of formaldehyde content is a project with high technical requirements, which not only requires the operator to be proficient in the standard, but also requires the operator to have certain chemical professional knowledge and skills. Therefore, this project should attract more attention during the operation and implementation. More about Leather Testing Equipment: http://www.standard-groups.com/LeatherShoes/

textile testing equipment is not something to be ignored or taken for granted. It is there to keep your tensile tester manufacturers comfortable year round. To find a cost effective solution, turn to GESTER International Co.,Limited.

Are you looking for more information regarding textile testing equipment tensile tester manufacturers? Visit GESTER Instruments and contact us as soon as possible!

textile testing equipment can be applied in different ways as tensile tester manufacturers.

This can benefit GESTER Instruments by helping it target those investors and consumers who are specifically interested in its type of product or service.

GESTER International Co.,Limited's main technology of textile testing equipment leads us to understand and utilize information correctly.

GET IN TOUCH WITH Us
recommended articles
What is Air Permeability Tester? Detailed Overview and Benefits

The air permeability tester is a high-precision testing instrument designed to evaluate the breathability of PPE materials, textile fabrics, non-woven fabrics, woven fabrics, and industrial filter media. It plays a critical role in quality control, product development, and laboratory research across multiple industries including PPE, textiles, automotive interiors, and filtration systems.

Modern instruments such as the GT-C27 Air Permeability Tester are developed with advanced sensor systems, automated control logic, and multi-standard compatibility to ensure reliable and repeatable results. Complying with global standards such as ISO 9237, ASTM D737, DIN 53887, and GB/T 5453, it guarantees internationally recognized testing performance.

With high automation, accurate pressure sensing, and flexible unit conversion systems, air permeability testing equipment significantly improves testing efficiency while reducing human error. It is widely used in PPE manufacturing, textile engineering, non-woven product development, and industrial filtration quality inspection.
Cobb Test Paper Absorption Tester GT-N07 - A Comprehensive Guide
The Cobb Test Paper Absorption Tester GT-N07 is an essential instrument for evaluating the water absorption properties of paper and paperboard materials. This test, commonly known as the Cobb method, helps determine how much water paper can absorb over a specified time under controlled conditions—crucial for assessing its suitability in printing, packaging, and coating applications.
Safety Footwear Test Explained: Compression and Puncture Tester
This article fully explains the working principle, applicable international standards, test advantages and application scope of safety footwear compression and puncture tester GT-KB12A. It covers core protective performance testing of safety shoe toecap and sole steel plate, complies with GB, ISO, EN, ASTM and other global standards, and serves manufacturers, third-party labs and safety footwear R&D institutions for quality control .
According to ASTM D642 Standard: Detailed Box Compression Strength Tester GT-N02A
The ASTM D642 standard defines the test method for determining the compressive resistance of shipping containers, like corrugated boxes, when faced with static compressive forces. This article details the test procedure and introduces the GESTER GT-N02A and GT-N02B Box Compression Testers, which are fully compliant with ASTM D642, ISO 12048, and TAPPI T804. These versatile machines perform destructive strength tests, constant value tests, and simulated long-term stacking tests to ensure your pac
PPE Trends: Insights from a China Top PPE Testing Machine Company
As 2026 approaches, the global PPE industry is transformed by stricter industrial safety regulations, healthcare awareness, and evolving international standards (ISO/ASTM/EN). Key trends include the rise of Smart PPE, adoption of sustainable bio-based materials, and converging global compliance requirements—demanding high-precision, automated testing equipment with data traceability. GESTER International Co., Ltd., a China top PPE testing machine company with 25+ years of expertise, addresses these challenges through modular, standards-aligned solutions (e.g., TPP Thermal Protection Tester GT-RC02A, TDM Cut Test Machine GT-KC28) and long-term partnerships with SGS, TUV, and Intertek. Offering global technical support (installation, calibration, training) and automated, multi-standard-compatible equipment, GESTER empowers PPE manufacturers to meet 2026’s rigorous safety benchmarks. This article explores PPE performance evolution, 2026 industry trends, technological testing responses, and strategic procurement tips—emphasizing how China’s leading testing machine providers bridge hardware innovation with global compliance to protect human life. For professional PPE testing solutions, visit https://www.gesterinstruments.com/.
Mask Testing Equipment: Everything You Need to Know
This article comprehensively introduces mask testing equipment, including its definition, application significance, core international testing standards, main equipment types and functional characteristics. It also puts forward a step-by-step selection guide and common selection misunderstandings, providing a reference for mask manufacturers, third-party testing institutions and regulatory departments to select appropriate testing equipment, so as to ensure mask product quality, pass international certification and protect user safety.
Universal Testing Machine Dual Column GT-K01: A Reliable Solution for footwear Testing
The Universal Testing Machine Dual Column GT-K01 is a high-precision mechanical testing instrument widely used in the footwear industry to evaluate tensile, compression, bending, tearing, and bonding strength of various materials. With advanced servo control, high-accuracy displacement measurement, and compliance with multiple international testing standards such as SATRA, ASTM, ISO, and BS, the GT-K01 footwear universal testing machine provides reliable data for quality control, material research, and product certification. This article explores the working capabilities, structural features, and practical value of the GT-K01 universal testing machine in footwear testing and manufacturing processes.
Sweating Guarded Hotplate GT-C98 Guide: Find the Right Testing Machine for Your Needs
The Sweating Guarded Hotplate GT-C98 is a professional instrument designed to evaluate the thermal resistance (Rct) and water-vapor resistance (Ret) of textiles and related materials. By simulating human skin heat dissipation and sweating under controlled conditions, it provides accurate and repeatable data for comfort and protective performance analysis. This guide introduces the testing principle, applicable international standards, industry applications, and key technical features to help users identify the right testing machine for product development, quality control, and research.
A Complete Guide to Martindale Testing by the Best Martindale Abrasion Tester Supplier
Durability is critical for textiles and footwear, and Martindale testing is the gold standard for measuring abrasion resistance and pilling performance. This guide dives into Martindale testing’s core mechanics (Lissajous figure multi-directional friction), strategies to boost testing accuracy (sample clamping, load calibration, abrasive standardization), and compliance with international standards (ISO 12947, ASTM D4966, EN). As a top Martindale abrasion tester supplier with 25+ years of expertise, GESTER International delivers high-precision instruments (Martindale Abrasion Tester GT-C13B, etc.) certified to ISO 9001 and trusted by SGS, Bureau Veritas, and other global testing institutes. Beyond machinery, GESTER offers global technical support, on-site installation, and calibration services. The guide also includes a procurement framework to help labs select tailored Martindale testing solutions. For reliable, standard-compliant durability testing, GESTER is your trusted partner.
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.
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