Fully automatic fiber dissolution instrument adopts advanced technologies such as filter bagbatch technology with invention patent, automatic control, human-machine interaction, specialanti-corrosion materials, etc., to realize the automation of chemical dissolution test process. Theinstrument automatically adds dissolving reagents, soaks the sample, dynamically and accuratelycontrols the temperature, visualizes the dissolution process, classifies the waste, and cleans anddehydrates, saving more than 90% of the workload of quantitative analysis. The testing processincludes automatic process control such as liquid addition, rotation, waste collection, waterwashing, neutralization of residual liquid, washing again, dehydration, etc., which realizes one.button start, unattended operation, uniform operation of the dissolution and washing processbetter dissolution effect than manual differentiation, good data stability, high replaceability ofpersonnel, and low training cost.
Product Specification /Technical Data | |||
Model | FQLB-RJ1800 (2nd gen) | Effective capacity | 3000ml |
Motor speed | 0-800r/min | Batch volume | 50 specimens |
Repeatabilityaccuracy | ≤1% | Safety | Enclosed operation, off-handwork |
Liquid fillingaccuracy | ±0.5ml | Consumables | Ouantitative filter bags |
Environmentneeds | Normal temperature andhumidity | Temperature range | Room temperature to 959C;Temperature control accuracy:±0.1°C. |
Working Mode | Customize the test program, the whole automatic operation, test processvisualization. | ||
Specificity | Specialized quantitative filter bag for the whole process of dissolution,filtration, cleaning and dehydration of specimens. The whole processeliminates the manual repetition of adding liquid, pumping filtration,cleaning and other work, which is both safe and efficient. | ||
Standard | GB/T 2910、1S0 1833、FZ/T01026-2017、FZT 01095-2002、JIS L1030-2、AATCC 20A、(EU)1007/2011 etc. | ||
The test results & accuracy after dissolution are the same as the conventional methodand reduce the labor time by more than 85%;Using the 75% sulfuric acid method, which is the most commonly used method, thefollowing is a comparison of the results of random sample dissolution test data: |
Specimen number | Color | Fabric Name | Conventional MethodsTest Results | Instrument Dissolution Test Results | |
1 | CT-R2164511 | Navy blue | Knitted double-sided fabric | 78.0%cotton 22.0%polyester | 78.2%cotton 21.8%polyester |
2 | XT-R114232103 | Rice-white | Knitted velvet | 73.0%cotton 27.0%polyester | 73.0%cotton 27.0%polyester |
3 | XT-F113132711 | Bnight white | Ribbed cloth | 67.0%cotton 33.0%polyester | 67.0%cotton 33.0%polyester |
4 | CT-R2122181 | Grayish blue | Double jerseyfabric | 88.1%cotton 11.9%polyester | 88.1%cotton 11.9%polyester |
5 | CT-R2147383面料 | Rusty red | Double jerseyfabric | 79.8%polyester 20.2%cotton | 79.5%polyester 20.5%cotton |
6 | CT-R2147383帽里 | Rusty red | Single jerseyfabric | 83.8%polyester 16.2%cotton | 83.7%polyester 16.3%cotton |
7 | CT-R2137886 | Black | Knitted double-sided fabric | 79.4%cotton 20.6%polyester | 79,3%cotton 20.7%polyester |
8 | CT-R2169519 | pink | Jersey fabric | 65.2%cotton 34.8%polyester | 65.3%cotton 34.7%polyester |
9 | CT-R2166531 | Rice-white | Woven bubole Wrap | 59.9%cotton 40.1%polyester | 59.5%cotton 40.5%polyester |
10 | CT-R2148187 lining | Black | Woven bubole Wrap | 79.8%polyester 20.2%cotton | 79.9%polyester 20.1%cotton |