The Experts below are selected from a list of 123 Experts worldwide ranked by ideXlab platform
Yong Hu - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Effect of Pulley Diameter and Lubricant Grease on Multi-Layer Winding Wire Rope’s Fatigue Endurance
Advanced Materials Research, 2011Co-Authors: Zhi Hui Hu, Ji Quan Hu, Yong HuAbstract:Comparison test method is used to study the effect of Pulley Diameter and lubricant grease on multi-layer winding wire rope’s fatigue endurance. The investigation indicates that the fatigue failure behavior is closely related to spatial location where the wire rope is in drum; the occurrence and development of broken wires follows regularly. The fatigue endurance of multi-layer winding wire rope is little influenced by lubricant grease, which is greatly affected by the Diameter ratio of Pulley to rope in multi-layer winding. The results have important reference value for the reliability design of multi-layer winding wire rope.
-
experimental study on effect of Pulley Diameter and lubricant grease on multi layer winding wire rope s fatigue endurance
Advanced Materials Research, 2011Co-Authors: Zhi Hui Hu, Ji Quan Hu, Yong HuAbstract:Comparison test method is used to study the effect of Pulley Diameter and lubricant grease on multi-layer winding wire rope’s fatigue endurance. The investigation indicates that the fatigue failure behavior is closely related to spatial location where the wire rope is in drum; the occurrence and development of broken wires follows regularly. The fatigue endurance of multi-layer winding wire rope is little influenced by lubricant grease, which is greatly affected by the Diameter ratio of Pulley to rope in multi-layer winding. The results have important reference value for the reliability design of multi-layer winding wire rope.
Lukman Adlin Harahap - One of the best experts on this subject based on the ideXlab platform.
-
uji berbagai Diameter puli pada alat pembuat sari kedelai Pulley Diameter test of soybean extractor
Jurnal Rekayasa Pangan dan Pertanian, 2017Co-Authors: Muhammad Yusuf, Saipul Bahri Daulay, Lukman Adlin HarahapAbstract:ABSTRACT There have been many soybean extractor in the market, that have been developed by home industry or university studentThe capacity of soy bean extractor can be improved by testing their parts. This research was about testing Pulley Diameter of soybean extractor to improve its capacity. This research had been conducted by using factorial randomized block design with Pulley Diameters of 3, 4 and 5 inches. The observed parameter in this research was effective capacity of equipment, yield and percentage of materials left in appliance. The results showed that Pulley Diameter had highly significant effect on parcentage of process capacity and yield and had no effect on percentage of materials left in appliance. From this research it, can be concluded that the best Pulley Diameters was 3 inches. Keywords : soybean extractor, soybean extract, Pulley Diameter test. ABSTRAK Alat pembuat sari kedelai telah banyak dipasaran, baik itu yang dikembangkan oleh rumah industri atau yang dikembangkan oleh mahasiswa. Kapasitas alat pembuat sari kedelai dapat ditingkatkan dengan melakukan pengujian pada beberapa bagian alat. Penelitian ini adalah pengujian berbagai Diameter puli pada alat pembuat sari kedelai yang diharapkan dapat meningkatkan kapasitas alat tersebut. Penelitian dilakukan dengan menggunakan model rancangan acak lengkap non faktorial dengan faktor Diameter puli 3, 4 dan 5 inci. Pada penelitian ini, parameter yang diamati adalah kapasitas efektif alat, rendemen dan persentase bahan tertinggal di alat. Hasil penelitian menunjukan bahwa Diameter puli pada alat pembuat sari kedelai memberikan pengaruh berbeda sangat nyata terhadap kapasitas efektif alat dan rendemen dan memberikan pengaruh tidak berbeda nyata terhadap persentase bahan tertinggal. Dari hasil penelitian dapat disimpulkan hasil terbaik adalah dengan menggunakan puli berDiameter 3 inci. Kata kunci : alat pembuat sari kedelai, sari kedelai, uji Diameter puli.
-
Study of Pulley Diameter Effect on Product Quality of Grain’s Chip Molder
2015Co-Authors: Alex Candra Pardede, Saipul Bahri Daulay, Lukman Adlin HarahapAbstract:The Pulley Diameter of grain’s chip molder is needed to care. The Pulley Diameter will affect product quality. Pulley Diameter were tested to know the quality of grain’s chip produced. Research had been conducted at agricultural engineering laboratory, Agricultural faculty USU in April –August 2014 using factorial randomized block design with one factor i.e 2,5, 3,5, and 4,5 inch. Parameters observed were organoleptic test (color), yield, process capacity, uniformity of the thickness and parcentage of damage product. The results showed that the Pulley Diameter had no effect on the organoleptic test (color), yield and uniformity of the thickness; had significant effect on process capacity and had highly significant on parcentage of damage product. Keywords: Grain’s chip molder, Pulley Diameter test, product quality.
-
study of Pulley Diameter effect on product quality of grain s chip molder
Jurnal Rekayasa Pangan dan Pertanian, 2015Co-Authors: Alex Candra Pardede, Saipul Bahri Daulay, Lukman Adlin HarahapAbstract:The Pulley Diameter of grain’s chip molder is needed to care. The Pulley Diameter will affect product quality. Pulley Diameter were tested to know the quality of grain’s chip produced. Research had been conducted at agricultural engineering laboratory, Agricultural faculty USU in April –August 2014 using factorial randomized block design with one factor i.e 2,5, 3,5, and 4,5 inch. Parameters observed were organoleptic test (color), yield, process capacity, uniformity of the thickness and parcentage of damage product. The results showed that the Pulley Diameter had no effect on the organoleptic test (color), yield and uniformity of the thickness; had significant effect on process capacity and had highly significant on parcentage of damage product. Keywords: Grain’s chip molder, Pulley Diameter test, product quality.
Zhi Hui Hu - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Effect of Pulley Diameter and Lubricant Grease on Multi-Layer Winding Wire Rope’s Fatigue Endurance
Advanced Materials Research, 2011Co-Authors: Zhi Hui Hu, Ji Quan Hu, Yong HuAbstract:Comparison test method is used to study the effect of Pulley Diameter and lubricant grease on multi-layer winding wire rope’s fatigue endurance. The investigation indicates that the fatigue failure behavior is closely related to spatial location where the wire rope is in drum; the occurrence and development of broken wires follows regularly. The fatigue endurance of multi-layer winding wire rope is little influenced by lubricant grease, which is greatly affected by the Diameter ratio of Pulley to rope in multi-layer winding. The results have important reference value for the reliability design of multi-layer winding wire rope.
-
experimental study on effect of Pulley Diameter and lubricant grease on multi layer winding wire rope s fatigue endurance
Advanced Materials Research, 2011Co-Authors: Zhi Hui Hu, Ji Quan Hu, Yong HuAbstract:Comparison test method is used to study the effect of Pulley Diameter and lubricant grease on multi-layer winding wire rope’s fatigue endurance. The investigation indicates that the fatigue failure behavior is closely related to spatial location where the wire rope is in drum; the occurrence and development of broken wires follows regularly. The fatigue endurance of multi-layer winding wire rope is little influenced by lubricant grease, which is greatly affected by the Diameter ratio of Pulley to rope in multi-layer winding. The results have important reference value for the reliability design of multi-layer winding wire rope.
Toru Oshima - One of the best experts on this subject based on the ideXlab platform.
-
SII - Tread-surface Swing Mechanism of Lower Limbs Strength Training Device
2019 IEEE SICE International Symposium on System Integration (SII), 2020Co-Authors: Takumi Tamamoto, Yoshinori Kimura, Maki Koyanagi, Akio Inoue, Tomoaki Murabayashi, Kei Sawai, Tatsuo Motoyoshi, Hiroyuki Masuta, Kenrichi Koyanagi, Toru OshimaAbstract:This paper proposed a tread-surface swing mechanism for lower limbs strength training devices. In the standing position and the training for lower limbs, if the tread-surface angle is inappropriate, then the posture of the knee joints will be affected, and knee adduction/valgus moments, which result to knee stress, will be generated. The target trainings are the front-back crossing and the right-left spread exercises. Regarding the swing of the tread-surface, it is necessary to realize a pitch/yaw rotation and a roll/yaw rotation for the former and the latter exercises, respectively. The mechanism we proposed has a further differential mechanism that utilizes the difference between Pulley Diameters. The translational movement force of the tread-part is transmitted as the torque of the swing motion for pitch, roll, and yaw by the effect of the differential mechanism. The rate of the swing angle can be changed by adjusting the Pulley Diameter. Rehabilitation and strength training that result in small knee joint stresses and that generate large muscle load cab pose great demand from people suffering from knee joint failure.
-
Tread-surface Swing Mechanism of Lower Limbs Strength Training Device
2019 IEEE SICE International Symposium on System Integration (SII), 2019Co-Authors: Takumi Tamamoto, Ken’ichi Koyanagi, Yoshinori Kimura, Maki Koyanagi, Akio Inoue, Tomoaki Murabayashi, Kei Sawai, Tatsuo Motoyoshi, Hiroyuki Masuta, Toru OshimaAbstract:This paper proposed a tread-surface swing mechanism for lower limbs strength training devices. In the standing position and the training for lower limbs, if the tread-surface angle is inappropriate, then the posture of the knee joints will be affected, and knee adduction/valgus moments, which result to knee stress, will be generated. The target trainings are the front-back crossing and the right-left spread exercises. Regarding the swing of the tread-surface, it is necessary to realize a pitch/yaw rotation and a roll/yaw rotation for the former and the latter exercises, respectively. The mechanism we proposed has a further differential mechanism that utilizes the difference between Pulley Diameters. The translational movement force of the tread-part is transmitted as the torque of the swing motion for pitch, roll, and yaw by the effect of the differential mechanism. The rate of the swing angle can be changed by adjusting the Pulley Diameter. Rehabilitation and strength training that result in small knee joint stresses and that generate large muscle load cab pose great demand from people suffering from knee joint failure.
Ji Quan Hu - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Effect of Pulley Diameter and Lubricant Grease on Multi-Layer Winding Wire Rope’s Fatigue Endurance
Advanced Materials Research, 2011Co-Authors: Zhi Hui Hu, Ji Quan Hu, Yong HuAbstract:Comparison test method is used to study the effect of Pulley Diameter and lubricant grease on multi-layer winding wire rope’s fatigue endurance. The investigation indicates that the fatigue failure behavior is closely related to spatial location where the wire rope is in drum; the occurrence and development of broken wires follows regularly. The fatigue endurance of multi-layer winding wire rope is little influenced by lubricant grease, which is greatly affected by the Diameter ratio of Pulley to rope in multi-layer winding. The results have important reference value for the reliability design of multi-layer winding wire rope.
-
experimental study on effect of Pulley Diameter and lubricant grease on multi layer winding wire rope s fatigue endurance
Advanced Materials Research, 2011Co-Authors: Zhi Hui Hu, Ji Quan Hu, Yong HuAbstract:Comparison test method is used to study the effect of Pulley Diameter and lubricant grease on multi-layer winding wire rope’s fatigue endurance. The investigation indicates that the fatigue failure behavior is closely related to spatial location where the wire rope is in drum; the occurrence and development of broken wires follows regularly. The fatigue endurance of multi-layer winding wire rope is little influenced by lubricant grease, which is greatly affected by the Diameter ratio of Pulley to rope in multi-layer winding. The results have important reference value for the reliability design of multi-layer winding wire rope.
