loading

PPE Testing Equipment Manufacturer | Safety Equipment Testing Machines | GESTER


Products

Analysis of Salt Fog Corrosion Test on Surface Anti-corrosion Ability of Lighting Products

1. Corrosion mechanism The working environment of lighting products is atmospheric and indoor environment, and the harsh conditions are in the ocean climate or the seabed. Atmospheric corrosion is divided into three categories: dry atmospheric corrosion; wet atmospheric corrosion; wet atmospheric corrosion. 1. Characteristics of atmospheric corrosion Atmospheric corrosion is characterized by the corrosion process in which the metal surface is under a thin layer of electrolyte, and its corrosion mechanism conforms to the law of electrochemical corrosion: when a continuous thin layer of electrolyte is formed on the metal surface, the cathodic process of atmospheric corrosion is :O2+2H2O+4e→4OH- The anode process is: Me-ne→Men+; when all Fe and Zn are immersed in reducing acid solution: the cathode is hydrogen depolarization; under the acidic water film formed by urban polluted atmosphere: the cathode is Oxygen depolarization corrosion. Under a thin liquid film: Oxygen can easily reach the metal surface to form an oxide film, anodic passivation, and anodic polarization; the thickening of the liquid film (wet atmosphere) requires a diffusion process for oxygen to reach the metal surface, so corrosion Controlled slowdown. Corrosion mechanism: The rust layer of atmospheric corrosion is under humid conditions, and the rust layer acts as a strong oxidant. The anode in the rust layer occurs on the Fe3O4 interface of the metal: Fe-2e→Fe2+; the cathode occurs on the interface of Fe3O4 and FeOOH: 6FeOOH+2e → 2Fe3O4+2H2O+2OH-, the rust layer participates in the cathode process. In the industrial atmosphere, SO2, NO2, H2S and NH3 all increase atmospheric corrosion. When the humidity is greater than 70%, a water film is formed, electrochemical corrosion occurs, and the corrosion rate increases sharply; when the humidity is less than 70%, the electrochemical corrosion rate of sulfur dioxide is very small. In particular, metals such as iron, zinc, cadmium, and nickel that are not resistant to sulfuric acid are extremely susceptible to corrosion in the atmosphere. It is generally believed that the corrosion mechanism of SO2 is the autocatalytic process of sulfate cavities. Once the rust layer generates sulfate, the rust layer has no protective ability. Therefore, carbon steel must be protected under outdoor atmospheric conditions. Methods include anti-rust paint, Zn, AI, etc. or adding atmospheric corrosion resistant alloy elements, such as Cu, P, etc., so that the rust layer has a good protective effect. 2. Seawater corrosion characteristics Seawater is about 3.5% NaCI solution, (NaCI, MgCI2, CaSO4, K2SO4, CaCO3, MgBr2) with an average conductivity of 4×10-2S.CM-1, which is much larger than river water and rainwater. When the salt concentration and temperature increase, the solubility of oxygen in seawater decreases. Seawater is a typical electrolyte solution, which is a characteristic of electrochemical corrosion. Except for the active Mg and its alloys, the seawater corrosion process is an oxygen depolarization process, and the corrosion rate is determined by Oxygen diffusion process control. For most metals such as iron, steel, zinc, etc., due to the high concentration of CI-, the retardation effect of the anode process is very small, and it is not easy to reduce it. Only by increasing the alloying element molybdenum to inhibit the destructive effect of CI- on the passivation film, it can be improved. Corrosion resistance. Due to the high conductivity of seawater, the low resistance resistance, and the macroscopic and microscopic battery activity of seawater corrosion, the galvanic corrosion caused by the contact of dissimilar metals in the seawater has a considerable destructive effect. For example, ships and bronze propellers can cause corrosion of steel hulls tens of meters away. 2. Corrosion resistance test and determination of corrosion resistance 1. Weather resistance test method Neutral salt spray test: 5% NaCI solution, PHu003d6.5-7.2 Acetic acid salt spray test: 5% NaCI solution, add appropriate amount of glacial acid , PHu003d3.1-3.3 copper accelerated acetic acid salt spray test: 5% NaCI solution, adding 2g/L±0.2g/L CuCI2.2H2O, PHu003d3.1-3.32, metal material and protective layer weather resistance simulation test standard A ) Test equipment requirements: The test chamber material is not corrosive and does not affect the test results; the salt spray cannot be sprayed directly on the sample surface; the condensed water anywhere in the working space cannot drip onto the sample; the temperature fluctuation of the test chamber is ±0.5℃, which is uniform The degree is ±2℃. B) Selection of test conditions: test solution acidity: PHu003d7±0.2 test solution composition can have four choices according to needs: ①, 3% NaCI solution; ②, 5% NaCI solution; ③, 20% NaCI solution; ④ , Artificial sea water; 27g/L NaCI+6g/LMgCI2+1g/LKCI+1g/LCaCI2C) Test temperature: 35±2℃ D) Salt spray precipitation: 1.0-2.0ml/80cm2.hE) The test cycle can be as required Choice: ①, spray continuously for 24 hours, and observe the time when corrosion begins. ② Continuous spraying for 8 hours, stopping for 16 hours, 24 hours is a cycle, and the number of test cycles is specified according to the effects of different products. ③, intermittent spraying for 8 hours (the fountain stops for 5 minutes and stops for 45 minutes), stops for 16 hours, and a cycle of 24 hours. The number of test cycles is specified according to the effects of different products. 3. The salt spray resistance test method of paint film is to make paint board according to GB1765; test solution: 3.5% NaCI solution, PHu003d6.1-7.5; working temperature of test chamber: 40±2℃; spray cycle: spray 15 minutes every 45 minutes. 4. Evaluation method of corrosion resistance test. The usual evaluation method of corrosion test results is: appearance and appearance after removal of surface corrosion products; the distribution and quantity of pitting corrosion, cracks, and bubbles are evaluated according to the nature of the base material and the coating. The substrate is the cathode. The surface of steel and aluminum alloy die-castings with Ni-Cr or Cu-Ni-Cr is graded according to GB6461; the substrate is graded according to GB12335 for anodes such as steel galvanized and copper tinned; the start of corrosion time is the most commonly used corrosion resistance judgment Method: The results of corrosion resistance test can also be judged by weight change, microscope observation and mechanical property change. The salt spray resistance of the paint film is rated according to GB1740.

However, with the increased prevalence of textile testing equipment, it has become far more affordable.

GESTER Instruments has a whole range of different items to help you make an informed choice every time you make a purchase. Check it!

It is never too late to have a new mindset and to get things moving in the right direction. Choose GESTER International Co.,Limited to be your quality provider.

While buying the products, make sure that you purchase them from a reputed and trusted seller - either online or offline. GESTER International Co.,Limited is specialised in the field of , offering a wide range of products like textile testing equipment, tensile tester manufacturers, tensile tester manufacturers,etc.

GET IN TOUCH WITH Us
recommended articles
What is EN 149 & Why is it Important?
EN 149 is the core European standard for particle-filtering half masks and FFP respirators. This article elaborates on the definition, structure, performance classification, marking rules and core advantages of EN 149, compares it with NIOSH N95, KN95, EN 143 and medical mask standards, and lists industry application scenarios, as well as professional mask and filter testing instruments compliant with EN 149 testing requirements.
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.
Technical Insight: How a Professional EN388 Gloves Tester Company Evaluates Durability
In industrial settings, protective gloves’ durability is critical for workplace safety, with the EN388 standard serving as the global benchmark for evaluating abrasion, cut, tear, and puncture resistance. GESTER International Co., Ltd., a professional EN388 gloves tester company with over 20 years of experience, delivers high-precision testing solutions to ensure accurate and reliable durability assessments. Equipped with advanced instruments like the Safety Glove & Shoe Upper Cutting Tester GT-KC29—featuring LCD display, real-time monitoring, and compliance with EN, ISO, and ASTM standards—GESTER’s solutions meet the rigorous demands of laboratories, manufacturers, and international testing institutes such as SGS, TUV, and Intertek. Adhering to ISO 9001 quality management systems and offering comprehensive after-sales support (installation, training, calibration), GESTER empowers clients to validate PPE performance, mitigate workplace risks, and achieve global regulatory compliance. For trusted EN388 gloves durability testing equipment and integrated laboratory solutions, GESTER is the preferred partner in the PPE industry.
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.
Looking for a Laboratory Protective Clothing Tester Supplier? Key Criteria to Consider
As global demand for high-performance PPE surges, selecting a qualified laboratory protective clothing tester supplier becomes critical for manufacturers and regulators. This article outlines core selection criteria: compliance with international standards (ISO, EN, ASTM), comprehensive protective gear tests (particle resistance, fluid barrier, thermal resistance, electrostatic safety), manufacturer qualifications (ISO 9001 certification, partnerships with SGS/TUV/Intertek), equipment precision (automation, modular design, data traceability), and end-to-end service (global support, calibration, customization). With 25+ years of experience, GESTER International delivers standards-aligned, high-precision testing instruments and integrated laboratory solutions, ensuring PPE meets rigorous safety requirements for medical, industrial, and chemical sectors. Explore how to choose a partner that safeguards worker safety through reliable testing.
Glove Tester: Key Standards EN 388 & EN 407
Protective glove testing is the core link to verify hand safety protection performance for industrial PPE. This article focuses on the two most authoritative EU mandatory standards EN 388 and EN 407, elaborates on standardized test necessity, complete test items, professional supporting glove testers, result rating rules, and the differences between mechanical risk testing and thermal risk testing. It provides one-stop compliant testing reference for glove manufacturers, third-party testing labs, and safety supervision institutions to meet global CE certification and workplace safety production requirements.
Elmendorf Tearing Strength Tester GT-C11A You Should Know
The Elmendorf Tearing Strength Tester GT-C11A is a pivotal instrument for evaluating the tearing resistance of various materials, including textiles, non-wovens, paper, and films. Utilizing the proven pendulum method, it delivers precise, repeatable data crucial for quality assurance, product development, and compliance with international standards like ASTM and ISO. This article explores its working principle, key features such as automated testing and pneumatic clamping, and its wide-ranging applications across multiple industries, highlighting why the GT-C11A is a trusted choice for professionals seeking reliable and efficient material performance analysis.
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.
Why GESTER is Recognized as a Global Top Safety Shoe Tester Exporter
As global industrial safety requirements tighten, GESTER International Co., Ltd has emerged as a globally recognized top safety shoe tester exporter, serving 168 countries with over 25 years of specialized expertise. The company’s success hinges on its commitment to precision engineering, compliance with international standards (ISO, ASTM, EN, SATRA), and partnerships with renowned testing institutes like SGS, Intertek, and TUV. Its product lineup, including the Safety Glove & Shoe Upper Cutting Tester GT-KC29 and cut resistance testers, delivers reliable, repeatable data for safety footwear durability, cut resistance, and other critical performance indicators. Complemented by a comprehensive global service network (on-site installation, calibration, staff training) and OEM/ODM customization capabilities, GESTER streamlines quality control for manufacturers, facilitating market access and ensuring workplace safety. Trusted by PPE brands and laboratories worldwide, GESTER bridges technical excellence and practical usability to drive efficiency in safety shoe certification and global trade.
What is the Safety Glove & Shoe Upper Cutting Tester GT-KC29
The Safety Glove & Shoe Upper Cutting Tester GT-KC29 is a high-precision testing instrument developed to measure the cut resistance performance of safety gloves and footwear uppers. In industrial and construction environments where sharp tools and metal edges pose significant injury risks, the GT-KC29 provides a reliable evaluation method by simulating real cutting motion. This tester meets EN 388 section 6.2, ISO 20344:2021 section 5.23, GB/T 20991 section 6.14, and other global standards, making it essential for PPE manufacturers, testing laboratories, and quality control departments. With automated operation, high repeatability, and multi-standard compliance, it helps companies improve product safety levels, enhance global competitiveness, and ensure superior protection for end users.
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