ISO 17751 FZ/T30003 Fiber Fineness Analyzer IWTO 8 AATCC 20 Wool Fibers Diameter Tester

ISO 17751 FZ/T30003 Fiber Fineness Analyzer IWTO 8 AATCC 20 Wool Fibers Diameter Tester

Scope of application

The fiber fineness analyzer is a new type of human-computer interactive fiber diameter measurement and analysis instrument. This instrument connects an optical microscope with a computer through a high-resolution industrial camera and relies on professional analysis software to complete tests such as fiber diameter and cross-sectional area. It can be used to measure the diameter of animal fibers such as wool and rabbit hair, as well as determine the content of various natural and artificial mixed fibers. Measurement range: 2 - 200 μm, accuracy: 0.1 μm.

Compliance standards

GB/T 10685-2007 "Test Method for Wool Fiber Diameter - Projection Microscope Method"

GB/T 13835.6-2009 "Test Methods for Rabbit Hair Fibers - Part 6: Diameter - Projection Microscope Method"

GB/T 3364-2008 "Test Methods for Carbon Fiber Diameter and Number of Fibers"

GB/T 16988 "Determination of Content of Special Animal Fibers and Wool Blends"

FZ/T30003 "Quantitative Analysis Method for Cotton and Linen Blended Products - Microscopic Projection Method"

SN/T0756 "Quantitative Analysis Method for Cotton/Linen Blended Products for Import and Export - Microscopic Projection Method"

Features

1. The system adopts computer digital image processing technology and is composed of a computer, a camera, a microscope, a printer and detection software. It provides automatic fiber diameter measurement function and online help function.

2. It is used to observe the cross-sectional morphology of various animal fibers, chemical fibers, special-shaped fibers and hollow fibers and measure the cross-sectional area.

3. It can test the special shape degree of special-shaped fibers.

4. Through the analysis of the cross-sectional morphology and area measurement of single fibers in blended products, the fiber content of various blended products can be obtained.

5. Professional analysis software is adopted. Data and reports are output in EXCEL format and standard reports are provided.

Function Introduction

1. Qualitative Analysis of Fibers:

FZ/T 01057.3 "Textile Fiber Identification Test Methods - Part 3: Microscopic Method"

AATCC 20 "Qualitative Analysis of Fibers"

2. Fiber Diameter Tests:

GB/T 10685 "Test Method for Diameter of Wool Fibers - Projection Microscope Method"

ISO 137 "Determination of the Diameter of Wool Fibers - Projection Microscope Method"

IWTO-8 "Method for Determining the Diameter Distribution of Wool Fibers and the Medullation Percentage of Wool and Other Animal Fibers by Microprojection"

GB/T 3364 "Test Method for Diameter and Equivalent Diameter of Carbon Fibers (Microscope Method)"

3. Automatic Diameter Measurement:

GB/T 20732-2006 "Optical Fiber Diameter Analyzer"

IWTO-47-00 "Specification for the Method of Determining the Average Diameter and Distribution of Wool Fibers by Optical Fiber Diameter Analyzer"

4. Fiber Content Tests:

GB/T 16988 "Determination of Content of Special Animal Fibers and Wool Mixtures"

ISO 17751:2007 "Microscopic Quantitative Analysis Methods for Animal Fibers - Cashmere, Wool, Other Animal Hair and Their Mixtures"

FZ/T 30003-2009 "Quantitative Analysis Method for Cotton-Linen Blended Products - Microscopic Projection Method"

FZ/T 32004-2009 "Quantitative Analysis Method for Cotton-Linen Blended Products - Microscopic Projection Method"

There are two functions available for the diameter measurement of the instrument

1. Longitudinal diameter measurement method

For fiber samples with a circular cross-section, the fibers can be directly arranged in parallel on a glass slide after being straightened. The diameter can be automatically measured by clicking on the edge of the fiber on the screen through the fiber microscope camera.

2. Cross-sectional area method

For fiber samples with a non-circular cross-section, the fiber samples are first sliced using a HAAKE microtome. The sliced fiber samples are placed on the stage, and the cross-sectional area of the fiber is measured on the screen through the fiber camera. Then, the equivalent diameter is automatically calculated.

Advantages

1. Operators can work outside the darkroom, reducing fatigue and enhancing demonstration.

2. It significantly improves efficiency compared to traditional detection methods.

3. Detection records can be printed, increasing accuracy and allowing for the printing of images for disputed samples for future reference.

4. It enhances detection results for dark fibers without causing color fading.

5. It comes with English software, cross-section software, and cotton-linen software.

Technical specifications