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Online since: November 2012
Authors: Pin Luarn, Chang Yi Kao, Yu Fan Lin
Gilbert [5] maintain that premised on one supplier providing one customer with materials and parts, the supplier may simply possess inventories needed at the time of JIT deliveries without keeping buffer inventories.
Existing procedures include order receiving, raw materials collecting and managing, factory manufacturing, shipping, and delivering.
ERP sends updated data on materials and stocks to the M2MICT system.
Fouad, A review of literature relating to JIT, International Journal of Production & Management, Vol. 9 , No. 3, 1988, pp. 15-25
Huston, Vendor requirements and evaluation in a JIT environment, International Journal of Operations & Production Management, Vol. 10, No. 4, 1990, pp. 41-50
Existing procedures include order receiving, raw materials collecting and managing, factory manufacturing, shipping, and delivering.
ERP sends updated data on materials and stocks to the M2MICT system.
Fouad, A review of literature relating to JIT, International Journal of Production & Management, Vol. 9 , No. 3, 1988, pp. 15-25
Huston, Vendor requirements and evaluation in a JIT environment, International Journal of Operations & Production Management, Vol. 10, No. 4, 1990, pp. 41-50
Online since: February 2014
Authors: Jian Bing Chen
Experimental
Materials
The type of PEEK 012P, which number-average molecular weight (Mn) was 60000, and PES, Mn 65000, which powder of 250 µm in diameter, were supplied by Changchun Jida Engineering Plastics Research Co., Ltd., in which PEEK material had a Tg of 143.3°C and a Tm of 335°C, and PES had also a Tg of 230.2°C.
Journal of Polymer Science: Part B: Polymer Physics, 40(2002), p. 1407-1424
Journal of Applied Polymer Science, 127(2013), p. 2220–2226
Chemical Journal of Chinese Universites, Vol.16 (1995), p. 120
Polymer Materials Science and Engineering, Vol. 25(2009 ), p. 87.
Journal of Polymer Science: Part B: Polymer Physics, 40(2002), p. 1407-1424
Journal of Applied Polymer Science, 127(2013), p. 2220–2226
Chemical Journal of Chinese Universites, Vol.16 (1995), p. 120
Polymer Materials Science and Engineering, Vol. 25(2009 ), p. 87.
Online since: October 2013
Authors: Long Bang Qing, Yong Gang Guo, Zheng Liu
Three different materials were used to model the dam, and the acceleration response of arch dam under the observed seismic waves was simulated.
Fig. 1 Finite element model and partitions of different materials of dam Arch dam and boundary finite element model has a total of 8819 nodes, 6309 units including 3381 dam units.
In order to simulate the real situation as much as possible, three different concrete materials are used in the dam model, as shown in Fig. 1.
Tu, Journal of Hydraulic Engineering, Vol. 10 2 (2009)
Li, Journal of Hydraulic Engineering, 5 (2009)
Fig. 1 Finite element model and partitions of different materials of dam Arch dam and boundary finite element model has a total of 8819 nodes, 6309 units including 3381 dam units.
In order to simulate the real situation as much as possible, three different concrete materials are used in the dam model, as shown in Fig. 1.
Tu, Journal of Hydraulic Engineering, Vol. 10 2 (2009)
Li, Journal of Hydraulic Engineering, 5 (2009)
Online since: March 2010
Authors: Tao Zhang, Yang Liang, Nan Yao
The shearing strength of materials include two parts:friction resistance and cohesion,friction with the
role of law in the shear plane is proportional to the pressure, the cohesion is the intrinsic properties of
the materials, which have no relation ship with the positive pressure, namely:
fc tgτ σ φ= + (1)
fτ shearing strength MPa;c cohesion MPa;φ internal friction angle0.
This apparatus use the shearing process of the destruction of the largest shear stress to calculate the shear strength of asphalt materials.And the formula for calculating shear strength are as follows: 10 f FS τ = ⋅ (2) fτ shearing strength MPa; Fhorizontal shear kN;S shear area cm2.
References [1] Yichuan Peng, Peng Cui, Lijun Sun: Journal of Chang Zhou Institute. (2006) (In Chinese) [2] JTGD20-2006, Highway Route Design, China Traffic Press. (2006) (In Chinese) [3] Shaopeng Wu, Guli Wang, Taiquan Chen: Journal of Wuhan University of Science and Technology: Science and Engineering.
Vol. 30(6) (2006), p.97 (In Chinese) [4] Jiali Wang, Shaopeng Wu: Journal of Wuhan University of Science and Technology: Science and Engineering, Vol. 30(6) (2006), p.463 (In Chinese) [5] Xiaodi Hu, Lijun Sun: Journal of Chang'an University: Natural Science Vol. 23(2) (2003), p 32 (In Chinese) [6] National Semiconductor Corporation.LM4040 Datasheet. (2002)
This apparatus use the shearing process of the destruction of the largest shear stress to calculate the shear strength of asphalt materials.And the formula for calculating shear strength are as follows: 10 f FS τ = ⋅ (2) fτ shearing strength MPa; Fhorizontal shear kN;S shear area cm2.
References [1] Yichuan Peng, Peng Cui, Lijun Sun: Journal of Chang Zhou Institute. (2006) (In Chinese) [2] JTGD20-2006, Highway Route Design, China Traffic Press. (2006) (In Chinese) [3] Shaopeng Wu, Guli Wang, Taiquan Chen: Journal of Wuhan University of Science and Technology: Science and Engineering.
Vol. 30(6) (2006), p.97 (In Chinese) [4] Jiali Wang, Shaopeng Wu: Journal of Wuhan University of Science and Technology: Science and Engineering, Vol. 30(6) (2006), p.463 (In Chinese) [5] Xiaodi Hu, Lijun Sun: Journal of Chang'an University: Natural Science Vol. 23(2) (2003), p 32 (In Chinese) [6] National Semiconductor Corporation.LM4040 Datasheet. (2002)
Online since: January 2010
Authors: A. Saritha, Joseph Kuruvilla, Thomas Sabu
[34] Xiao-Lin Xie, Yiu-Wing Mai, Xing-Ping Zhou, Materials Science and Engineering R Vol.
49 (2005), p. 89
[35] E.S.
Park: Materials Science and Engineering A, Vol.478 (2008), p. 406 G.
Yu, Materials Science and Engineering A Vol. 485 (2008), p. 524 [108] J.
Kar: Materials Science and Engineering A Vol. 491 (2008), p. 454 [110] J.
Noferesti: Journal of Membrane Science Vol. 282 (2006), p. 142 [113] K.
Park: Materials Science and Engineering A, Vol.478 (2008), p. 406 G.
Yu, Materials Science and Engineering A Vol. 485 (2008), p. 524 [108] J.
Kar: Materials Science and Engineering A Vol. 491 (2008), p. 454 [110] J.
Noferesti: Journal of Membrane Science Vol. 282 (2006), p. 142 [113] K.
Online since: September 2013
Authors: Hiroyuki Aoki, Akira Shimamoto, Yukihiko Machida
Plastic film assumes a large role as packaging material in our life.
It is considered that enough high peel strength and tensile strength are needed for liquid package material.
Introduction Plastic film assumes a large role as packaging material in our life.
Though, because laminated film is compound material, elements that influence peel strength, tensile strength and tear strength are range.
References [1] K.FUTASE, A.SHIMAMOTO, S.TAKAHASHI, H.AOKI: Journal of the Japanese Society for Non-destructive Inspection, Vol.45 (12) (1996), P.874 [2] H.AOKI, A.SHIMAMOTO, K.FUTASE, Y.KAMADA: Journal of the Japanese Society for Non-destructive Inspection, Vol.49 (2) (2000), P.116 [3] E.UMESAKI, K.FUTASE, H.AOKI, Y.KAMADA: Journal of the Japanese Society for Non-destructive Inspection, Vol.52 (6) (2003), P.303 [4] K.FUTASE: Journal of packaging Science & Tecnology, Vol.14 (6) (2005), P.373 [5] H.Aoki, A.Shimamoto, K.Futase, Y.Kamada: APCFS & ATEM ’01, JSME-MMD, Oct. 20-22 (2001), P.467 [6] K.Futase, A.Shimamoto, S.Takahashi, H.Aoki: Journal of the Japan Society of Mechanical Engineer, 910-71 (1991), P381 [7] Japanese Standard Association: JIS handbook, Plastic material and products (1999), P.894 [8] Japanese Standard Association: JIS handbook, Adhesion (1999), P.142
It is considered that enough high peel strength and tensile strength are needed for liquid package material.
Introduction Plastic film assumes a large role as packaging material in our life.
Though, because laminated film is compound material, elements that influence peel strength, tensile strength and tear strength are range.
References [1] K.FUTASE, A.SHIMAMOTO, S.TAKAHASHI, H.AOKI: Journal of the Japanese Society for Non-destructive Inspection, Vol.45 (12) (1996), P.874 [2] H.AOKI, A.SHIMAMOTO, K.FUTASE, Y.KAMADA: Journal of the Japanese Society for Non-destructive Inspection, Vol.49 (2) (2000), P.116 [3] E.UMESAKI, K.FUTASE, H.AOKI, Y.KAMADA: Journal of the Japanese Society for Non-destructive Inspection, Vol.52 (6) (2003), P.303 [4] K.FUTASE: Journal of packaging Science & Tecnology, Vol.14 (6) (2005), P.373 [5] H.Aoki, A.Shimamoto, K.Futase, Y.Kamada: APCFS & ATEM ’01, JSME-MMD, Oct. 20-22 (2001), P.467 [6] K.Futase, A.Shimamoto, S.Takahashi, H.Aoki: Journal of the Japan Society of Mechanical Engineer, 910-71 (1991), P381 [7] Japanese Standard Association: JIS handbook, Plastic material and products (1999), P.894 [8] Japanese Standard Association: JIS handbook, Adhesion (1999), P.142
Online since: February 2012
Authors: Tie Zhu Zhang, Hong Xin Zhang, Lian Jun Cheng
Acknowledgements
This work was financially supported by the National Natural Science Foundation (No. 50975146), Natural Science Foundation of Shandong Province (No.
ZR2010EM068) and Science and Technology Project of Shandong Province (No. 2006GG2204006) of China.
Im: Journal of Materials Processing Technology Vol. 192-193 (2007), P. 1 [2] M.C.
Erol Akata and Yilmaz Can: Materials & Design Vol. 28 (2007), P. 730 [7] E.
Bohnsack: Journal of Materials Processing Technology Vol. 98 (2000), P. 165
ZR2010EM068) and Science and Technology Project of Shandong Province (No. 2006GG2204006) of China.
Im: Journal of Materials Processing Technology Vol. 192-193 (2007), P. 1 [2] M.C.
Erol Akata and Yilmaz Can: Materials & Design Vol. 28 (2007), P. 730 [7] E.
Bohnsack: Journal of Materials Processing Technology Vol. 98 (2000), P. 165
Online since: July 2011
Authors: Zhanwen Chen, Guy Littlefair, Shamzin Yazdanian
Jahazi: Materials Science & Engineering A Vol. 472 (2008) p. 179
Jahazi: Materials & Design Vol. 30 (2009) p. 2033
Wang: Materials Science & Engineering A Vol. 429 (2006) p. 312
Yuan: Materials Science & Engineering A Vol. 499 (2009) p. 93
Reynolds: Materials Science and Engineering A Vol 527 (2010) p. 1537
Jahazi: Materials & Design Vol. 30 (2009) p. 2033
Wang: Materials Science & Engineering A Vol. 429 (2006) p. 312
Yuan: Materials Science & Engineering A Vol. 499 (2009) p. 93
Reynolds: Materials Science and Engineering A Vol 527 (2010) p. 1537
Online since: June 2021
Authors: Jian Min Yu, Zhi Min Zhang, Guo Qin Wu, Lei Chen Jia, Wen Long Xu, Yong Gang Tian
[2] Yu, H., et al, Die angle dependency of microstructural inhomogeneity in an indirect-extruded AZ31 magnesium alloy (Article) [J].Journal of Materials Processing Technology.2015:181-188
MATERIALS & DESIGN.2014:256-263
Materials Science and Engineering: A.2014:232-237
Materials Science and Engineering A.2015:137-141
Journal of Materials Science, 2011
MATERIALS & DESIGN.2014:256-263
Materials Science and Engineering: A.2014:232-237
Materials Science and Engineering A.2015:137-141
Journal of Materials Science, 2011
Online since: March 2024
Authors: Pelin Altay, Emine Dilara Kocak, Melisa Suha Aksaman, Melike Ateş, Zeynep Ünver
Researchers have focused on reducing greenhouse gas emission by recycling textile materials rather than producing new fibers through circular economy approaches.
Adidas, in partnership with Carvico and Aquafil, produces high-performance swimsuits from 100% recycled polyamides from post-consumer materials [15].
Experimental Materials Swimwear fabric samples produced from 100% polyester, and 50% polyester-50% recycled polyester fiber presented in Table 1 were provided from Boyner Büyük Ltd.
International Journal of Clothing Science and Technology, 30 (1), (2018) 2-15.
Textile Science and Clothing Technology.
Adidas, in partnership with Carvico and Aquafil, produces high-performance swimsuits from 100% recycled polyamides from post-consumer materials [15].
Experimental Materials Swimwear fabric samples produced from 100% polyester, and 50% polyester-50% recycled polyester fiber presented in Table 1 were provided from Boyner Büyük Ltd.
International Journal of Clothing Science and Technology, 30 (1), (2018) 2-15.
Textile Science and Clothing Technology.