loading

PPE Testing Equipment Manufacturer | Safety Equipment Testing Machines | GESTER


Products

2016 my country Textile Testing Technology Industry Forecast Report

With the development of science and technology, various high and new technologies are continuously injected into the textile industry, bringing new vitality to the textile industry. Throughout the development of the international textile industry, new textile technology, textile machinery and equipment are constantly emerging, the textile industry is showing rapid changes, and the textile testing technology and testing instruments have also developed rapidly. 1. The application of new technology in textile testing 1. The application of infrared spectroscopy in textile fiber identification The infrared spectrometer used in textile fiber identification-Fourier transform infrared spectrometer is made of the principle of dispersion of light, and its identification principle is : When the human light after passing through the object is dispersed by monochromators such as prisms and gratings, the composite light is divided into monochromatic light, which is arranged on the slit plane in the order of wavelengths and the detector receives its signals. The intensity of the color light is measured, that is, the absorption spectrum of the sample is obtained. The previously used infrared spectrometer has limited sensitivity and detection speed because only a very narrow section of light waves falls on the detector at each moment of scanning, while the Fourier transform infrared spectrometer uses a Michelson interferometer to make the spectral signal“multiplexing”, and convert the interference signal into ordinary spectral signal through Fourier mathematical transformation. Therefore, the information of all frequencies in the spectrum can be collected at the same time, and the entire spectrum can be scanned nearly a thousand times in one minute, thus greatly improving the sensitivity and work efficiency. . Through the analysis of the infrared spectrum of a large number of textile fibers, their infrared spectrum characteristics can be mastered to realize the quantitative analysis of the proportion of blended fabrics. 2. The application of laser detection in textiles Among the radiation sources used by photoelectric detection devices, lasers play a particularly important role. The light-emitting principle of laser is completely different from ordinary light sources, fundamentally breaking through the limitations of ordinary light sources, and has excellent characteristics that are different from ordinary light sources. Laser detection is an important aspect of laser use in the textile industry. It can be used for fabric inspection, detection of fabric pilling, hairiness and roughness, fabric weft skew; determination of yarn diameter, evenness, yarn shelter and fiber properties ; Control printing and dyeing and inspection of clothing and other aspects. 2.1. Laser cloth inspection uses optoelectronic methods to find defects on the surface of the fabric, mainly based on the difference between the reflection coefficient of the fabric surface at the defect and the surface reflection coefficient of the fabric without defects. When the laser radiation is transferred from the non-defect part of the fabric surface to the defective part, the reflected light from the fabric surface will change. Therefore, when there is a relatively obvious defect B in the field of view of the photoelectric receiver, It will cause irregular changes in the illuminance of the photoelectric receiver. At this time, the image analyzer is used for analysis, and then the computer can display the results. Laser cloth inspection not only improves labor efficiency, but also improves the accuracy of detection. 2.2. Laser detection of fabrics The objective evaluation of pilling fabrics by laser detection method is to establish a pellet classification standard according to the number of fabric pills, pellet height and total projected area of ​​pellets per unit area, and then compare the samples with them. The pilling level of the fabric is evaluated; for the fabric roughness, the laser sensor measures the fabric height at different positions through the triangulation technique. In the past, the testing of fabric pilling and roughness was performed subjectively by experts or by contact measuring instruments, and the results of the supervisor's evaluation lacked reliability and consistency. The use of laser detection overcomes the above drawbacks and achieves fast and accurate detection. 2.3. Laser detection yarn The beam reflected by the laser is expanded and projected onto the yarn under test. The yarn under test blocks a part of the luminous flux, and the rest is received by the photovoltaic cell arranged at the back and converted into photocurrent and photovoltage. The thickness of the yarn evenness is different, the luminous flux is also different, and the photovoltage and photocurrent are different. In this way, the change of the yarn evenness is converted into the change of the photocurrent and the photovoltage. This photoelectric signal is A weak signal that needs to be amplified and filtered to become an analog voltage signal corresponding to unevenness, and then the computer outputs the result in digital or graphic form. 3. Application of image processing technology in textile At present, computer image information processing technology is applied to many aspects of the textile industry: on the one hand, it is used in the development of textile testing technology and textile instruments, such as: determination of fiber fineness, yarn evenness Therefore, in-depth and systematic research on the application of image information processing technology in textile technology testing will promote the upgrading of a considerable number of textile instruments;

GESTER International Co.,Limited has built its reputation on a commitment to providing quality products and services while rapidly responding to international needs for innovative products.

If textile testing equipment isn't meeting your needs, or you just want to see what else is out there, check out these content monitoring alternatives GESTER Instruments.

GESTER International Co.,Limited’s model also predicts (i) a positive effect of management on firm performance; (ii) a positive relationship between product market competition and average management quality (part of which stems from the larger covariance between management with firm size as competition strengthens); and (iii) a rise (fall) in the level (dispersion) of management with firm age.

We afford not only the best product but also the comprehensive service, satisfy the customer's demands.

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.
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.
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.
What is the Safety Footwear Impact Tester & Why are They Important in Safety Shoes Testing
A Safety Footwear Impact Tester evaluates the impact resistance of safety shoes by striking the steel toe cap with 100J/200J kinetic energy, ensuring compliance with global standards (EN ISO 20344, ASTM F2412). It’s critical for verifying product protection, facilitating certification, and optimizing safety shoe design. GESTER Instruments offers reliable, user-friendly testers trusted by manufacturers and labs worldwide.
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.
Analysis of Pilling Influencing Factors and Testing Methods
Pilling testing plays a vital role in textile quality control, helping manufacturers evaluate and improve the wear performance of fabrics. Through the use of advanced instruments like ICI Pilling Box Test Method (GT-C18) , Martindale Abrasion Test Method (GT-C13B) , and Random Tumble Pilling Test Method (GT-C19A) , laboratories can conduct precise and standardized assessments, ensuring that final textile products deliver superior appearance, comfort, and longevity.
Analyzing the Sweating Guarded Hotplate GT-C98 & Why it is Important
The Sweating Guarded Hotplate GT-C98 is a professional textile testing instrument designed to measure thermal resistance and evaporative resistance of fabrics, garments, and personal protective equipment (PPE). By simulating heat and moisture transfer from human skin, the instrument provides reliable data for evaluating thermal comfort, breathability, and moisture management properties. This article explores the working principle, key features, applications, and importance of the GT-C98, helping manufacturers, laboratories, and researchers improve textile product development and quality assurance.
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.
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.
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