By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Gloss meters are used to measure the gloss of a surface. Gloss is a measure of how much light is reflected from a surface, and can be used to determine the finish, texture, and overall quality of a material.
Gloss meters measure the reflectance of a surface at different angles, and can be used to compare different materials, or to monitor changes in the surface over time.
Gloss meters typically consist of a light source, a detector, and a display. The light source illuminates the surface, and the detector measures the amount of light that is reflected.
The display then shows the gloss level as a number or a graph. Many modern gloss meters also have a memory function, allowing users to store and compare values from different surfaces.
Gloss meters are used in a variety of industries, including printing, automotive, and construction. They can help to ensure quality control by measuring the gloss of a material before and after a process. They can also be used to compare different materials, or to monitor changes in the gloss of a material over time.
Gloss meters are also used in research and development. By measuring the gloss of a material during the development process, researchers can quickly identify any changes that may need to be made to improve the product.
Gloss meters are relatively simple to use, and can provide a great deal of information about the surface of a material. They are an invaluable tool for those in industries that require precise measurements of the gloss of a material.
The Global Gloss Meter market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Three new gloss metres were introduced by Linshang Technology: two 60° gloss metres and a 3-angle gloss metre, respectively. Its look is pure white, its shape is smooth, its grasp is comfortable, and its measurement is always open. Both instruments exhibit repeatability of up to ±0.2GU, and their measurement precision is compliant with national working machine requirements.
This ensures that the quality is assured by independent metrology organisations’ testing. Three measurement angles are available for LS197: 20°, 60°, and 85°. With a broad range of 0-2000GU design and no worry of a million light, 20° is ideal for testing high gloss materials.
Suitable for most materials gloss testing, the 60° universal testing angle has a range of 0-1000 GU. It can catch the weak gloss at an angle of 85° for materials with low gloss, within the 0-160GU range. The LS197 gloss metre alone is capable of handling a range of materials gloss test, test easily.
The Positector GLS Gloss Metre, a new portable device from Gardner Co. USA, measures gloss on all surface treatments. Three variants (20°/60°, 20°/60°, and 20°/60°/85°) are offered.
The three variants can be readily converted to a coating thickness gauge, dew point metre, soluble surface profile gauge, soluble salt tester, hardness tester or ultrasonic wall thickness gauge.
They are also compatible with both the regular and advanced PosiTector glossmeters. The recommended angle for semi-gloss is the 60° model, which is intended for measuring the majority of gloss treatments.
The 20°/60° model is used to calculate the haze index and measure high gloss to semi gloss. Last but not least, the 20°/60°/85° model is intended to compute haze and quantify high, semi, and matte gloss levels.
This gloss metre series has an impact-resistant holster, an auto-rotating display with a flip lock, an ergonomic grip, quick measurement speeds of more than 60 readings per minute, and automatic diagnosis and calibration.
It also has an impact-resistant 2.8″ colour touchscreen, multiple display language selection, on-screen assistance, statistics mode, screen capture, Hilo alert, and a reset option. It’s tough, water-resistant, dust-proof, and weatherproof gauge body is touted to be perfect for usage in the shop or in the field. It also has a USB connector for an easy and quick connection to a PC and continuous power supply. Per probe, the standard model retains 1,000 readings.