ANALYSIS OF FATIGUE BEHAVIOR OF HIGH-DENSITY POLYETHYLENE BASED ON NONLINEAR VISCOELASTIC MEASUREMENT UNDER CYCLIC FATIGUE

被引：19

作者：

JO, NJ ^{[1
]}

TAKAHARA, A ^{[1
]}

KAJIYAMA, T ^{[1
]}

机构：

[1] KYUSHU UNIV,FAC ENGN,DEPT CHEM SCI & TECHNOL,HIGASHI KU,FUKUOKA 812,JAPAN

来源：

POLYMER JOURNAL | 1993年 / 25卷 / 07期

关键词：

FATIGUE BEHAVIOR; HIGH-DENSITY POLYETHYLENE; NONLINEAR VISCOELASTICITY; DYNAMIC VISCOELASTICITY; NONLINEAR VISCOELASTIC PARAMETER; CRYSTALLINE STATE;

D O I：

10.1295/polymj.25.721

中图分类号：

O63 [高分子化学（高聚物）];

学科分类号：

070305 ; 080501 ; 081704 ;

摘要：

Fatigue behaviors of annealed and isothermally crystallized high-density polyethylenes (HDPEs) were investigated on the basis of nonlinear dynamic viscoelastic measurement during the fatigue process. Nonlinear viscoelasticity was evaluated in terms of nonlinear viscoelastic parameter (NVP) which was defined as the contribution of higher harmonics of Fourier expanded stress signal. In the cases of the annealed and isothermally crystallized HDPEs, the apparent dynamic storage modulus decreased, NVP and tan delta increased with an increase in the magnitude of imposed strain amplitude. Since the fatigue strength decreased when the contribution of NVP became dominant, the magnitude of NVP can be used as a measure of fatigue characteristics of polymeric solids. Also, the origin of NVP for the annealed and isothermally crystallized HDPEs was discussed on the basis of the spherulite structure.

引用

页码：721 / 729

页数：9

共 13 条

[1]

HOSEMANN R, 1968, MAKROMOL CHEM, V118, P230

[2] FATIGUE FRACTURE-BEHAVIOR OF SOLID-STATE EXTRUDED HIGH-DENSITY POLYETHYLENE [J].

KAIYA, N ;

TAKAHARA, A ;

KAJIYAMA, T .

POLYMER JOURNAL, 1989, 21 (07) :523-531

[3]

KAIYA N, 1986, SEN-I GAKKAISHI, V42, pT127

[4] NONLINEAR BEHAVIOR OF VISCOELASTIC MATERIALS .2. METHOD OF ANALYSIS AND TEMPERATURE-DEPENDENCE OF NONLINEAR VISCOELASTIC FUNCTIONS [J].

MATSUMOTO, T ;

SEGAWA, Y ;

WARASHINA, Y ;

ONOGI, S .

TRANSACTIONS OF THE SOCIETY OF RHEOLOGY, 1973, 17 (01) :47-62

[5]

Onogi S, 1970, T SOC RHEOL, V14, P275, DOI DOI 10.1122/1.549190

[6] INTERPRETIVE NON-LINEAR VISCOELASTICITY - DYNAMIC PROPERTIES OF NYLON-6, NYLON-66, AND NYLON-12 FIBERS [J].

PREVORSEK, DC ;

KWON, YD ;

SHARMA, RK .

JOURNAL OF APPLIED POLYMER SCIENCE, 1980, 25 (09) :2063-2104

[7] INTERPRETIVE NON-LINEAR VISCOELASTICITY - DYNAMIC PROPERTIES OF NYLON 6 FIBERS [J].

PREVORSEK, DC ;

KWON, YD ;

SHARMA, RK .

JOURNAL OF MACROMOLECULAR SCIENCE-PHYSICS, 1977, B13 (04) :571-595

[8] A NONLINEAR MECHANICAL MODEL FOR SOLID-FILLED RUBBERS [J].

SO, H ;

CHEN, UD .

POLYMER ENGINEERING AND SCIENCE, 1991, 31 (06) :410-416

[9] EVALUATION OF FATIGUE LIFETIME AND ELUCIDATION OF FATIGUE MECHANISM IN PLASTICIZED POLYVINYL-CHLORIDE) IN TERMS OF DYNAMIC VISCOELASTICITY [J].

TAKAHARA, A ;

YAMADA, K ;

KAJIYAMA, T ;

TAKAYANAGI, M .

JOURNAL OF APPLIED POLYMER SCIENCE, 1980, 25 (04) :597-614

[10] ANALYSIS OF FATIGUE BEHAVIOR OF HIGH-DENSITY POLYETHYLENE BASED ON DYNAMIC VISCOELASTIC MEASUREMENTS DURING THE FATIGUE PROCESS [J].

TAKAHARA, A ;

YAMADA, K ;

KAJIYAMA, T ;

TAKAYANAGI, M .

JOURNAL OF APPLIED POLYMER SCIENCE, 1981, 26 (04) :1085-1104

← 1 2 →