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Preliminary Investigations on the Reduction of Foot Pressure Measurement and Muscle Activity with Different Insole Materials A.
FEA was done to determine the force distribution under the foot using two different insole materials.
Dynamic loading pressure data collected and Table 1 shows the outcome measurement for four subjects using two different types of insole materials.
This can be associated with the mechanical properties of the both materials that have shock absorbing characteristic.
The effect of poron and plastozate insole on forefoot plantar pressure, British Journal of Podiatry, 9 (2006) 111-114

Influence of Material and Arrangement Mold on the Foaming Behavior of Extruded Precursor Fang Wang1,a, Lucai Wang1,b* 1College of Materials Science and Engineering, Taiyuan University of Science and Technology ,Taiyuan Shanxi, China a281961813@qq.com, b283766362@qq.com Keywords: Powder compact method (PCM), filling, foaming, pore structure, precursor, arrangement mode Abstract: In this paper, the extruded precursors were prepared by Powder compact method (PCM),with two different powder AlSi10 or pure Al mixed foaming agent ZrH2 or TiH2, then they were foamed to fill the hollow part.
Foam Mechanics: the Linear Elastic Response of Two - Dimensional Spatially Periodic Cellular Materials.
Mechanics of Materials [J]. 1988, 55(1): 341-346
Materials & Design, 2014, 59(6):296-302
Advanced Engineering Materials, 2002, 4(10):753–758

Electrochemical reaction occurring in the SOFC cathode is the reduction of oxygen, therefore cathode materials for SOFC have to posses many properties.
The-state-of-the-art cathode material, LSM-ScSZ composite material was used to investigate cathode degradation.
Acknowledgements This work was financially supported by the Natural Science Foundation of Jilin Province (201215109), International cooperation project of Jilin Provincial Science and Technology Department (20130413047GH), the Research Funds of Industrial Technology Research and Development Projects of Jilin Province(JF2012C024; JF2013C050-1), and the Science and Technology Research Projects of Education Department of Jilin Province(2013269), to which we gratefully acknowledged.
Mogensen.Journal of power sources, 61(173), (1996), P.71-78
[J].Journal of Power Sources, 55(73), (1995), P. 89-96

[7] F.L.Methews, "Composite materials Engineering and Science", Wood head publishing, (1999), pp.30
Chen, "Young's module of composite filled with randomly oriented fibers", Journal of materials, (1968), 352-358
Kalamkarov , "A new model for multiphase Fiber matrix composite material", Composites part B 29B , Elsevier science Ltd. ( 1998 ),pp.643-653
[12] Oscar Hoffman, " The brittle strength of orthotropic material ", Journal of Composite Material, Vol-1, (1967), pp. 200-206
Sun, "Computer modeling and FEA simulation for composite single fiber pull-out", Journal of Thermoplastic Composite Materials, Vol. 14, (4), 2001, pp. 327-343 [18] Hsiang Tai, "Equivalent thermal conductivity of 2D & 3Dorthogonaly fiber reinforced composite in 1D heat flow", Journal of Composite Technology & Research, Vol-18, No3,(1996) pp. 221-227

Jain, “Experimental investigations of cutting parameters influence on cutting forces and surface roughness in finish hard turning of MDN250 steel”, Journal of Materials Processing Technology, 206 (2008), p.167-179
Samuel, “Machinability investigations on hardened AISI 4340 steel using coated carbide insert”, International Journal of Refractory Metals & Hard Materials, 33 (2012), p.75-86
Durejac, J., “Effect of tool geometry variation on finish turning – A Review”, Journal of Engineering Science and Technology Review, 4 (2011), p.1-13
Davim, “Machinability investigations in hard turning of AISI D2 cold work tool steel with conventional and wiper ceramic inserts”, International Journal of Refractory Metals & Hard Materials, 27 (2009), p.754-763
Boulanouar, “High speed turning for hard material with PCBN inserts: tool wear analysis”, İnternational Journal of Machining and Machinability of Materials, 3 (2008), p.62-79

Introduction Meta-materials are specifically referred to as a class of artificial materials that have simultaneous negative electric permittivity and magnetic permeability [1] and are also known as left-handed materials (LHMs).
In recent years, Meta-materials have been received much attention due to their unusual electromagnetic properties.
Meta-materials have been realized by using different models such as the Drude medium and the Lorentzian medium models and so on.
In [7,8], the proposed PML formulations have been incorporated into the FDTD implementation of the meta-materials.
Journal of Computational Physics, 2013, 232(1): 318-326

Callister, "Materials Science and Engineering ", Third edition, John Wiley and Sons, Inc, (1994) 131
Ipek, Adhesive Wear Behaviour of B4C and SiC Reinforced 4147 Al Matrix Composites (Al/B4C–Al/SiC), Journal of Materials Processing Technology (2005) pp 162–163
Chandramohan, Wear Studies on Metal Matrix Composites-Taguchi Approach, Journal of Material Science and Technology 21 (2005) pp 845- 850
Series: Materials Science and Engineering, 671 (2020) 012153. doi:10.1088/1757-899X/671/1/012153
P.Fulay, Essentials of Materials Science and Engineering, Second Edition, Book, Pub Cengage Learning (2010)

It encompasses materials like shape memory alloys, piezoceramics, and MSM materials.
Motooka, Handbook of Silicon Based MEMS Materials and Technologies.
O’Handley, Field-induced strain under load in Ni-Mn-Ga magnetic shape memory materials, Journal of Applied Physics, (1998), 83, 7297–7299
Straka, Effect of crystal quality on twinning stress in Ni-Mn-Ga magnetic shape memory alloys, Journal of Materials Research and Technology, (2021), 14, 1934–1944
Liu, Recent progress in magnetic shape memory materials, Journal of Materials Science, (2019), 54, 8385-8413

Materials and Methods Raw Material Standard maize starch at moisture content of 14% (dry basis) was supplied by Roquette Frères (Lestrem, France).
Singh: Journal of Food Science Vol. 45 (1980), p. 1387
Fryer: AIChE Journal Vol. 44 (1998), p. 1777
Vernon: Engineering Sciences in the Food Industry Vol. 1 (1984), p. 117
Buléon: Journal of Carbohydrate Polymers Vol 74 (2008), p. 802.

Prediction of Blast Furnace Thermal State in Real-Time Operation Nikolay Spirina*, Oleg Onorinb, Alexander Istominc First President of Russia B.Yeltsin Ural Federal University, Yekaterinburg, Russia an.a.spirin@urfu.ru, birons@e1.ru, ca.s.istomin@urfu.ru Keywords: blast-furnace smelting, dynamic model, transition process, burden materials, blast parameters, prediction, silicon content in hot metal Abstract.
The paper shows that the dynamic characteristics of blast furnaces change are subjected to control actions and depend significantly on properties of melted raw materials and operating parameters of blast furnaces.
Journal of the Iron and Steel Institute of Japan 68 (1982) 2303-2310
Journal of the Iron and Steel Institute of Japan 68 (1982) 2369-2376
Lavrov, Information modeling system for blast furnace control, IOP Conference Series: Materials Science and Engineering, 150 (2016)