黄色h电影色婷婷_一區二區三區在線免費_三级在线免费观欧美看_亚洲国产综合专区在线电影_色综合久久综合中文小说_日韩亚洲av日韩乱码_www.99热这里只有精品_美女的隐私视频免费网站_亚洲国产网址_顶级私人家庭影院

新聞資訊

NEWS

新聞資訊
Your current location:  ENGLISH>  NEWS>  Technical exchange

Introduction to the Properties of Ultra-high Molecular Weight Polyethylene Pipes

Time:2019-06-04 Click:
Detailed introduction

Introduction to the Properties of Ultra-high Molecular Weight Polyethylene Pipe

1. Wear Resistance: The wear resistance of ultra-high molecular weight polyethylene (UHMWPE) pipes is more than 8 times that of medium carbon steel and more than 5 times that of nylon 66. Data obtained through slurry erosion wear tests on lining materials using a slurry wear testing machine are shown in Table 1:

Table 1: Erosion Test Wear Rate

Material

Sample No.

Sample Flow Rate/(m/s)

1.8        2.4        3.2         4.0         4.8

UHMWPE

1

17·436

22·548

26.814

30·435

33·926

2

17.6lO

23.135

27.386

31.026

34.157

3

17.363

22.637

26.836

30.504

33.840

Average

17.470

22.773

27.012

30.655

33.974

45#鋼

7

132.667

175.596

204.365

246.597

270.130

8

134.850

178.334

2lO.702

251.018

275.334

9

129.776

168.266

199.853

242.49l

267.862

Average

132.431

174.065

204.973

246.7.2

271.109

Corrosion Resistance: Ultra-high molecular weight polyethylene is an inert material that can withstand corrosion from various chemical media, including strong acids and alkalis, except for a few strong oxidizing agents. Its chemical resistance properties are shown in Table 2:

Table 2: Chemical Resistance of Ultra-high Molecular Weight Polyethylene

Impact Resistance: The impact strength of ultra-high molecular weight polyethylene is currently the highest among plastics, being 3-5 times higher than polycarbonate, which is known for its impact resistance. The impact strength of ultra-high molecular weight polyethylene and other engineering plastics is shown in Figure 5

                         Figure 4: Impact Strength of Engineering Plastics4. High Tensile Strength: With a tensile strength exceeding 23MPa and a tensile elastic modulus reaching 100-125GPa, it effectively solves the problem of easy peeling of the lining's flanged edges.
5. Heat Preservation and Viscosity Reduction: With a thermal conductivity that is 1/20th of steel, it exhibits excellent thermal insulation properties. Oil pipelines lined with ultra-high molecular weight polyethylene can significantly reduce heat loss during fluid flow, lowering the viscosity of crude oil. 
6. Scale and Salt Prevention: Due to its low friction coefficient and non-polarity, the ultra-high molecular weight polyethylene lining material has excellent surface non-adhesiveness, making it highly resistant to sticking. Even when transporting complex fluid media, it won't form scale or salt deposits.
7. Anti-aging: The theoretical service life of the ultra-high molecular weight polyethylene lining material can reach over a hundred years. The aging and embrittlement rates are very slow, and under natural sunlight conditions, its service life exceeds 50 years.
8. Water-resistant: It is almost water-resistant and does not expand in water.
9. Good Self-lubricating Properties: With a friction coefficient smaller than other engineering materials, comparable to that of ice, it has good self-lubricating properties. This can reduce resistance, improve gathering and transportation capabilities, and minimize sediment.
10. Good Environmental Adaptability: It can operate in environmental temperatures ranging from -50℃ to +100℃ for extended periods.