Development of Software for Creating New Materials with Hybrid Properties

Tanabe, Ikuo; Takiguchi, Sho; Iyama, Tetsuro

doi:10.1299/kikaic.78.595

Cited by 7 publications

(7 citation statements)

References 8 publications

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“…There are density, thermal conductivity, specific heat, coefficient of linear expansion and Young's modulus among properties considered in the calculation models. Their calculation accuracies are shown in [9].…”

Section: Properties Calculation Models For New Composite Materialsmentioning

confidence: 99%

“…Consequently, a review of the process was deemed appropiate. For the aforementioned software, a solid body uniformity was assumed for each calculation model but conventional manufacturing of composite or composites (mixing) yields an heterogeneous mix which as a result would be considered as a material defect [9], [10]. Thus, the proposed new manufacturing process was meant to achieve high quality by avoiding this issue.…”

Section: Proposed Manufacturing Process For Small Structures With Amentioning

confidence: 99%

“…Material optimization software using inverse analysis has already being developed in our research [9]. And in this section, the proposed software was used for the small structure.…”

Section: Materials Optimization Algorithm Using Fem Inverse Analysismentioning

confidence: 99%

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Development of Material Optimization Technology for Small Structures

Tanabe

Silva

2019

Materials and Contact Characterisation IX

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Many innovative products with multi-functions and of excellent quality are being manufactured. Although new ideas, concepts and innovations emerge, products with higher properties remain the market's favourite. Therefore, in this research, the material optimization technology for a small structure was developed and evaluated. Some small structures were desired for miniaturizing, weight and energy saving in the products. The concept of "material optimization" is a new and general idea. This material is of the composite type. The material optimization technology regarding Young's modulus, density, coefficient of linear expansion, specific heat and thermal conductivity were the main consideration of this research. The calculation models for the properties were discussed first and presented. The manufacturing method for a small structure with the desired properties was then developed. The small structure with the material optimization was manufactured and evaluated. It is concluded from the research that the technology was very effective and useful for the development of a new composite material with several hybrid properties.

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Section: Properties Calculation Models For New Composite Materialsmentioning

confidence: 99%

Section: Proposed Manufacturing Process For Small Structures With Amentioning

confidence: 99%

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Development of Material Optimization Technology for Small Structures

Tanabe

Silva

2019

Materials and Contact Characterisation IX

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“…Therefore, as shown in Fig. 3, a new manufacturing method was developed to attend this issue [8], [9]. Specifically, coarse aggregate is firstly put into a mold.…”

Section: The Composite Materials Manufacturing Proceduresmentioning

confidence: 99%

“…Consequently, evaluation of the software was constrainted to the hybrid properties shown by generated composites during experimentation. Finally, the measurements of the physical properties were done using standard methods for this phenomena [9]- [12].…”

Section: Evaluation Of the Developed Softwarementioning

confidence: 99%

Development of Software for the Creation of New Materials With Hybrid Properties

Tanabe¹

2017

Materials and Contact Characterisation VIII

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Since the beginning of the 21 st century, the importance to manufacture products that involve highquality, hybrid properties, multi-functionality, low-cost, and environmentally-friendly characteristics has been highlighted in the development of new ideas and technologies. Therefore, given that the development of new materials has been following the same trend, a software for the creation of new materials with hybrid properties was developed and evaluated. The developed software involved and calculated several properties, such as density, Young's modulus, coefficient of linear expansion, specific heat and thermal conductivity. This software was composed of the following two functions:(1) the calculation of the combination and ratio of constituent materials to create a composite material that achieves certain desired properties, and (2) the calculation of the properties shown by the generated composite material based on the combination and ratio of its constituent materials. Subsequently, a three-dimensional functional gradient material (FGM) was manufactured and evaluated based on the developed software. It was concluded from the evaluation that; (1) the proposed software was able to calculate properties such as density, Young's modulus, coefficient of linear expansion, specific heat and thermal conductivity; (2) the software was useful for the development of a three-dimensional functional gradient material.

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