NY/T 2444-2013 Pineapple leaf fiber

NY/T 2444-2013 Pineapple leaf fiber NY/T2444-2013 |tt||Standard compression package decompression password: www.bzxz.net

ICS 65.020
Agricultural Industry Standard of the People's Republic of China
NY/T2444—2013
Pineapple Leaf Fiber
Pineapple Leaf Fiber
Issued on 2013-09-10
Implemented on 2014-01-01
Issued by the Ministry of Agriculture of the People's Republic of China
This standard was drafted in accordance with the rules given in GB/T1.1—2009. This standard was proposed by the Ministry of Agriculture of the People's Republic of China. This standard is under the jurisdiction of the Technical Committee on Standardization of Tropical Crops and Products of the Ministry of Agriculture. The drafting unit of this standard is the Institute of Agricultural Machinery, Chinese Academy of Tropical Agricultural Sciences. NY/T2444—2013
The main drafters of this standard are Li Mingfu, Lian Wenwei, Zhang Jin, Huang Tao, He Junyan, Ou Zhongqing, Deng Ganran, and Dian Zhipa. T
1 Scope
Pineapple Leaf Fiber
NY/T2444—2013
This standard specifies the terms and definitions, product labeling and marking, technical requirements, test methods, inspection rules, identification, packaging, transportation and storage of pineapple leaf fibers.
This standard applies to fibers processed from pineapple leaves. 2 Normative References
The following documents are essential for the application of this document. For dated references, only the dated version applies to this document. For undated references, the latest version (including all amendments) applies to this document. GB/T9995 Determination of moisture content and regain of textile materials - Oven drying method GB/12411 Test method for ramie and kenaf fibers
3 Terms and Definitions
The following terms and definitions apply to this document. 3.1
pineappleleaf riberpineappleleaf riberFiber obtained by processing pineapple leaves.
Fiber breaking strengthbreakingstrengthThe total strength value shown when the fiber sample is stretched and broken under specified conditions. 3.3
Fiber impurityfiberimputrity
Green peel, fiber scraps and other impurities in pineapple leaf fiber. 4 Product code and marking
4.1 Product code
Pineapple leaf fiber is divided into two grades: "quality" and "quality", and the codes of each grade are represented by "1" and "2" respectively. 4.2 Product marking
Pineapple leaf fiber is marked with its product name, this standard number and product grade code. The representation method is as follows: Product grade, 1 or 2
This standard number NY/T2444—2013
Product name, Pineapple leaf fiber
Example:
The leaf fiber that implements this standard is "quality", and the mark is: Dream Red Fiber NY/T 2411—2013-1.
NY/T 2444—2013
5 Technical requirements
5.1 Quality requirements
The quality indexes shall meet the requirements in Table 1:
Impurity rate,
Fiber breaking strength, N
5.2 Moisture regain
Table 1 Quality indexes of pineapple leaf fiber
Milky white, glossy
The standard moisture regain of Tibetan fiber is 13%, and the actual moisture regain should not exceed 15%. 6 Test method
6.1 Sampling
Pineapple leaf fiber is randomly sampled from the same batch of fiber packages of the same grade. The number of samples shall comply with the provisions of Table 2. Randomly take fiber samples from the batch sample as laboratory samples, Table 2
Number of batch fiber packages
Number of joint sample packages
6.2 Sample preparationWww.bzxZ.net
6.2.1 Fiber breaking strength sample
Sampling requirements
Straighten the sample, align the base, cut 30mm from the middle of the test sample, and arrange it into a bundle of red fiber with uniform thickness. Weigh each bundle with a mass of 1.00g.
6.2.2 Fiber impurity content sample
Randomly take samples with a mass of about 1.00g from the laboratory sample. 30 fibers are used as samples. 6.2.3 Fiber regain test sample
Randomly select fibers with a mass of about 50g from the experimental empty samples as samples, seal them, and weigh the mass of the samples within 24 hours. 6.3 Test method
6.3.1 Appearance
Measure the color and gloss of pineapple leaf fibers under natural light. It should not be carried out in direct sunlight or in a dark place with backlight. 6.3.2 Fiber breaking strength
According to the provisions of (F3/T12411
6.3.3 Impurity content
According to (GB/ T12411.
6.3.4 Moisture regain
According to GB/T9995.
7 Inspection rules
7.1 Inspection items
7.1.1 Pineapple leaf fiber shall be inspected according to all items specified in Chapter 5 of this standard. 2
NY/T2444-—2013
7.1.2 The fiber shall be shipped with an inspection report, which shall include the name, quantity and inspection results of the inspection items, the grade to be determined, the inspection unit, the inspector and the inspection conditions, the date, etc. 7.2 Determination rules
7.2.1 If all the inspection results meet the indicators in Table 1, it shall be determined to be qualified. 7.2.2 If one of the two indicators of fiber appearance quality and impurity content does not meet the requirements of the corresponding grade, it shall be downgraded by one grade. 7.3 Packaging quality
7.3.1 Determination of bale quality
The quality can be assessed by random sampling and weighing using a measuring instrument with a tip weight of 0.05kg that has been calibrated and qualified at the prescribed period. If the parties concerned have objections to the fiber quality, they can re-sample and measure the impurity content, moisture regain and actual mass of the fiber bales to calculate the nominal mass of the fiber bales. The mass of the entire batch of fibers is calculated by multiplying the nominal mass of each fiber bale by the number of fiber bales. The result is the nominal mass value of the batch of fiber bales. The nominal mass of each bale of the entire batch of fiber bales is expressed as the average value of all sample bales. The nominal mass of the fiber bales is calculated according to formula (1). 100+W× 100-F
W--standard weight, in dry grams (kg);
W--standard moisture regain, 13%;
actual moisture regain, in percentage (%); actual impurity content, in percentage (%); F
standard impurity content, in percentage (%). The value is accurate to one decimal place.
7.3.2 Determination of appearance dimensions
Use a qualified length measuring instrument such as a steel ruler (accuracy of 1mm) to randomly sample and measure the length, width and height of different parts of the six faces of the rectangular fiber package. Take at least 3 values ​​for each item on each face and use the average value for analysis and evaluation. 8 Packaging, labeling, transportation and storage
8.1 Packaging
Each fiber package is composed of pineapple leaf fibers of the same variety, batch and grade. When packaging, the bases are clearly separated, straightened and neatly tied with galvanized iron wire or strapping tape after being shaped according to the specified length. Each package should be tied at least four times. The package quality and appearance dimensions should comply with the requirements of Table 3. Table 3 Requirements for the package quality and appearance dimensions of pineapple leaf fibers Item Month
8.2 Labeling
Package quality, kg
Each fiber package should be accompanied by a label, and the label content should include product mark, quality, production unit, production period, etc. 8.3 Transportation
Fibers should be kept clean, fireproof, rainproof and moistureproof during transportation. They should not be mixed with flammable, explosive and corrosive items. 8.4 Storage
Fibers should be stacked on indoor warehouse cushions according to their grades. They should be kept clean, dry and well ventilated to prevent them from getting wet. Fireworks are strictly prohibited. They should not be stacked with flammable, explosive and corrosive items.
Tip: This standard content only shows part of the intercepted content of the complete standard. If you need the complete standard, please go to the top to download the complete standard document for free.