loading

PPE Testing Equipment Manufacturer | Safety Equipment Testing Machines | GESTER


Products

Thoughts on the Test Standards for Filter Efficiency of Protective Masks

With the rapid development of metallurgy, electric power, energy, chemistry, steel, textile printing and dyeing and other industries, a large number of toxic and harmful substances are discharged, plus a large amount of exhaust gas emitted into the atmosphere during the operation of various vehicles, resulting in Large-scale pollution of the air environment. Our country has encountered extremely serious haze infestations in recent years. The frequency of its occurrence, the extent of its spread, and the severity of its pollution have never been seen before. In this context, my country's protective masks, especially PM2. 5. Protective masks have received extensive attention from the general public, and their market is in a period of rapid growth. However, due to the incomplete relevant standards, the quality of these products is uneven, and the protective effects of some products are not satisfactory, and may even harm the health of consumers. At present, the domestic standards related to protective masks mainly include GB 2626-2006 'Respiratory Protective Equipment Self-priming Filtered Particle Respirator' [1], GB 1903-2010 'Technical Requirements for Medical Protective MasksMasks5 Protective Masks'[2] and GB/T 32610-2016 'Technical Specifications for Daily Protective Masks' and so on. Among them, some of the test standards are mainly for medical masks and other products, and the commercially available civilian protective masks are mainly tested in accordance with GB 2626-2006 'Respiratory Protective Equipment Self-priming Filter Type Anti-Particulate Respirator'. Association standard TAJ 1001-2015 'PM2. 5 'Protective Masks' and the national recommended standard GB/T 32610-2016 'Technical Specifications for Daily Protective Masks' are issued for the effective protection and evaluation of the performance of civilian protective masks. 1 Classification and use of masks 1.1. Ordinary paper masks. These masks are disposable items and can only block larger particles. They have limited ability to isolate germs and viruses. They can be used in electronics manufacturing, dust-free workshops, food processing, and schools. Use in other occasions. 1.2 Dust-proof respirator This type of respirator can only filter particles with a larger particle size, and is more suitable for cleaning and other related tasks. 1.3 Surgical masks Surgical masks are mainly composed of 3 layers of non-woven fabrics, which can block more than 90% of the particle size. The particles of 000 μm need to be replaced in time every day. They are mainly suitable for people with respiratory diseases or use in unventilated places such as hospitals and movie theaters. 1. 4 Activated carbon masks This kind of masks are often used to absorb toxic and harmful chemicals or dust. They usually do not have a sterilization function and are mainly suitable for use when spraying paint or spraying pesticides. 1. 5 N95 masks This type of mask meets the requirements of the National Institute for Occupational Safety and Health (NIOSH) N95, and the diameter of particles that can be blocked can be as small as 0. 300 μm. This type of mask usually has high respiratory resistance and can be worn for a short time when the smog is severe. 2 Test conditions for filtration efficiency of relevant domestic and foreign standards The current foreign test standards for protective masks mainly include the United States NIOSH 42 CFR-84 'Respiratory Protection Device' [3], EU BS EN149: 2001 'Requirements for Filtering Half Masks for Particle Protection in Respiratory Protection Devices' , Testing and Labeling' [4] and Australian AS/NS 1716: 2003 'Respiratory Protective Equipment' [5] etc. In addition, Japan issued Decree No. 0207006 in 2005, which also stipulated the test conditions for dust masks. Table 1 lists the mask classification and filtration efficiency test conditions in the United States and the European Union. It can be seen from Table 1 that the United States divides the filter elements of the protective device into three categories for the types of protection objects, namely N, R and P series. Among them, the N series are suitable for protection of non-oily particles, and the two series of R and P can be used for protection of oily or non-oily particles. The European Union does not classify filter elements. When considering the filtration efficiency of filter elements, the United States and the European Union are rated according to different pretreatment conditions and test conditions. Similar to the American standard, the Japanese standard also classifies filter elements according to filtering non-oily particles (RS series) and filtering oily and non-oily particles (RL series). The filtration efficiency of RS1 / RL1 is ≥80. 00%, the filtration efficiency of RS2 / RL2 is ≥95. 00%, the filtration efficiency of RS3/RL3 is ≥99. 90%. The Australian standard directly divides the filter element into 3 grades: P1, P2 and P3. The filter efficiency of P1 is ≥80. 00%, the filtration efficiency of P2 is ≥94. 00%, the filtration efficiency of P3≥99. 95%. The country has also issued a series of standards for protective masks, and with the development of mask materials and changes in social needs, relevant standards are constantly updated and improved. At present, the filtration efficiency test of protective masks mainly refers to GB 2626-2006 'Respiratory Protective Equipment Self-priming Filtering Anti-Particulate Respirator'. In terms of particle detection, technical requirements and test methods, this standard has a greater degree of improvement than its alternative standard, and the classification of test objects is more specific and effective. However, due to the direct contact between protective masks and human mouth and nose, it is necessary to consider microorganisms, pH value, decomposable carcinogenic aromatic amine dyes and other items when testing civil protective masks to more effectively ensure the protection of wearing protection that meets the requirements of this standard. The health of ordinary people with masks. Based on this, the industry association and the country respectively issued TAJ 1001-2015 'PM2. 5 Protective masks' and GB/T32610-2016 'Technical Specifications for Daily Protective Masks' 2 standards.

GESTER needs to be able to reach social users in a way that complements what the brand is doing if they want to succeed at social commerce.

And finally, if you want to find additional resources for textile testing equipment, simply go to GESTER Instruments for more.

tensile tester manufacturers textile testing equipment offer a wide range of tensile tester manufacturers and gave the user the choice of tensile tester manufacturers, tensile tester manufacturers and tensile tester manufacturers.

GET IN TOUCH WITH Us
recommended articles
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.
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
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.
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.
Whole Shoes Flexing Tester GT-KA01-2: An Ultimate Guide to Its Benefits and Applications
The Whole Shoes Flexing Tester GT-KA01-2 is an advanced footwear testing instrument designed to evaluate the flexing resistance and durability of finished shoes. By simulating repeated walking and bending movements, it helps manufacturers identify cracks, material fatigue, and structural weaknesses in footwear products. Compliant with SATRA TM92, ISO 24266 Method A, and HG/T 2871-2022 Method B, this testing machine provides accurate, repeatable, and reliable results for sports shoes, casual shoes, work shoes, and other footwear types. This guide explores its features, benefits, industry applications, and frequently asked questions to help footwear manufacturers improve product quality and meet international testing 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 GESTER Ranks as a Leading TPP Thermal Protective Performance Tester Exporter
As a trusted leading TPP Thermal Protective Performance Tester exporter, GESTER International Co., Ltd. brings 25+ years of R&D and manufacturing expertise to PPE safety testing. Our flagship GT-RC02 series TPP testers feature advanced dual-source thermal simulation, high-sensitivity sensors, and full digital automation—delivering precise, repeatable data to evaluate thermal protection for firefighter and industrial protective clothing. Fully compliant with global standards (NFPA 1971, EN 469, ISO), GESTER’s equipment is trusted by SGS, Intertek, and top testing institutes worldwide. Backed by ISO 9001 certification, global service in 160+ countries, and professional calibration support, we empower manufacturers and labs to meet stringent safety regulations and ensure life-saving thermal protection. Discover tailored TPP testing solutions for PPE excellence at GESTER.
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.
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.
What is the Use of Air Permeability Tester?
An air permeability tester measures how easily air passes through textiles, nonwovens, and other materials, directly impacting comfort (heat/moisture management) and performance (wind resistance, filtration). This guide explains how digital testers work using pressurized airflow, details step-by-step testing procedures (including nozzle selection), and covers key applications in apparel, medical, automotive, and industrial sectors. Explore compliant standards (ISO 9237, ASTM D737, GB/T 5453) and
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