Li Yaqin, WuWenfu, Wang Junfa, Li Xiaoxia, Wang Rui
언어
영어(ENG)
URL
https://www.earticle.net/Article/A231733
※ 원문제공기관과의 협약기간이 종료되어 열람이 제한될 수 있습니다.
원문정보
초록
영어
At winter the problem that how to efficiently clear solid ice and snow, which always plagues the staff .The interfacial materials—solid snow-ice— cause the major operational problem related to snow removed performance. The central issue is how to evaluate the yield characteristics when the solid snow-ice was broken and fracture failure. Measurement system of freezing adhesive yield characteristics was established and solid snow-ice freezing adhesive yield characteristics were tested. From the experiment process that simulating snow-ice repeatedly compacted by vehicles on practical road, the total strain ε of solid snow-ice under the effect of cyclic load is the sum of pure elastic strain εe, delayed elastic strain εd and permanent strain εv. The total strain ε was measured by the DH3818 strain gages, according to the strain curve, the strain showed as fluctuated change along with the load applied, the strain value changed as a process of increase-decrease-increase. The rotating orthogonal test was conducted by using the average of single group strain as objective function, thickness of snow layer, snow-ice density and snow-ice firmness are as influencing factors. Through the test result, the major and minor relation of three factors are thickness of snow layer>snow-ice density>snow-ice firmness, and the thickness of snow layer has the interaction with density and firmness. From the analysis, the optimal average strain is 0.128 to 0.14 which can be got by the fellow parameter combination: the range of snow density is 500kg/m3-518kg/m3, the range of thickness of snow layer is 6.9mm-7.5mm, the range of snow firmness is 1826Pa-2040Pa. Through the study, the constitutive model of solid snow-ice can be established, meanwhile, the certain theoretical basis for efficient solid snow-ice clearing has been provided.
목차
Abstract 1. Introduction 2. Materials and Methods 2.1. Instruments and Tools of Experiment 2.2 Design of Experiment 2.2. Design of Experiment 2.3. Process of Experiment 3. Results and Discussion 3.1. Analysis of Strain Curve 3.2. Factors Analysis 3.3. Optimization Analysis 3.4. Verification Test 4. Conclusions Acknowledgements References
Li Yaqin [ Biological and Agricultural Engineering College, Jilin University, Changchun 130022, China, College of Mechanical Engineering, Jiamusi University, Jiamusi 154007, China ]
WuWenfu [ Biological and Agricultural Engineering College, Jilin University, Changchun 130022, China ]
Wang Junfa [ College of Mechanical Engineering, Jiamusi University, Jiamusi 154007, China ]
Li Xiaoxia [ College of Mechanical Engineering, Jiamusi University, Jiamusi 154007, China ]
Wang Rui [ College of Mechanical Engineering, Jiamusi University, Jiamusi 154007, China ]
보안공학연구지원센터(IJHIT) [Science & Engineering Research Support Center, Republic of Korea(IJHIT)]
설립연도
2006
분야
공학>컴퓨터학
소개
1. 보안공학에 대한 각종 조사 및 연구
2. 보안공학에 대한 응용기술 연구 및 발표
3. 보안공학에 관한 각종 학술 발표회 및 전시회 개최
4. 보안공학 기술의 상호 협조 및 정보교환
5. 보안공학에 관한 표준화 사업 및 규격의 제정
6. 보안공학에 관한 산학연 협동의 증진
7. 국제적 학술 교류 및 기술 협력
8. 보안공학에 관한 논문지 발간
9. 기타 본 회 목적 달성에 필요한 사업
간행물
간행물명
International Journal of Hybrid Information Technology
간기
격월간
pISSN
1738-9968
수록기간
2008~2016
십진분류
KDC 505DDC 605
이 권호 내 다른 논문 / International Journal of Hybrid Information Technology Vol.7 No.5