Journal of the Society of Materials Science, Japan Volume 66, Issue 11

Titanium That Supports Japanese Traditional Building

Titanium has been applied for Japanese traditional building since 1973, due to the excellent characteristics. The special properties and advantage of titanium for Japanese traditional building are introduced. In addition, the developed technologies and the future of titanium in Japanese traditional building field are considered.

Materials Technology in Kyoto Bow

Production technology in traditional industries is inherited in the form of " remember while watching the back of the master." It is a knowledge base of the form of "tacit knowledge", and they need to be formalized by the power of science and technology. Movement of experts is recorded using an infrared camera. The position in the space of the marker affixed to each part of the body of the subject is acquired as digital data. In this report, Kyoto bow showed examples that formalized the tacit knowledge of manufacturing in traditional industries. Kyoto bow is a Japanese bow often used for archery enthusiasts. Mr. Shibata is the 21st bow priest. In order to elucidate the tacit knowledge, he possessed, vibration tests and bending tests were conducted. Test results proved that materials with high modulus of elasticity were chosen when Mr. Shibata chooses materials.

Evaluation of Susceptibility to External Stress Corrosion Cracking (ESCC)

There are three elements, namely environment, material, and stress, as susceptibility conditions of damage patterns of the equipment. Susceptibility of damage can be mainly evaluated by temperature parameter. Damage patterns of the equipment become apparent in low temperature region, normal temperature region and high temperature region along with aging degradation, and these damage patterns cause leakage during operation. In particular, damage appears prominently under low temperature environment. Among them, it is difficult to extract susceptibility to external stress corrosion cracking External stress corrosion cracking of austenitic stainless steel is generated when grain boundary Cr depletion layer (sensitization) of weld heat affected zone (HAZ) occurs due to rainwater retention and sea salt particles. However, sensitization does not occur in all of HAZ. Occurrence of sensitization differs in every part. Therefore, this paper describes in detail findings obtained from survey results on the ESCC in a chemical plant.

Measurement and Analysis of Anisotropic Hole Growth of Perforated Sheet

he effect of microscopic voids to macroscopic mechanical responce is interesting consideration, because ductile fracture is caused by the voids nucreation, growth and coalescence. So this study aims modeling of growth behavior of voids in ductile materials. Perforated sheets are deformed under uniaxial stress condition and progress of growth of holes are measured during examination. In order to represent variation of void shape and arrangement, damage tensor is employed. For the modeling of evolution of damage tensor and stress-strain relationship, anisotropic constitutive equation is presented. This equation is developed by incorporating damage tensor to Gurson’s yield function. Evolution equation is improved so that anisotropic growth of holes can be considered. The presented model shows good agreement for the measurement results using perforated sheet.

Proposal on Unstructured Triangular Mesh Generation Method for Singular Stress Field Analysis of Bonded Structures Based on Finite Element Method

In this paper, we present new unstructured triangular mesh generation method for singular stress field analysis of bonded structures based on finite element method. If tensile and bending loadings are applied to the bonded structure, stress concentration occurs around singular point. It is known that stress and strain distribution are proportional to r^-λ, i.e., r is distance from singular point and λ is order of singularity. In addition, in case of the stress analysis based on the FEM, it is known that the value of the stress component at singular point increases with decreasing mesh size around bonded structure. Therefore, fracture of the bonded structure evaluates by the intensity of stress singularity obtained by the stress distribution, and it is the most important that high accurate stress distribution is obtained. In this study, we introduce new mesh division procedure considering stress singularity near singular point, and some results for numerical experiments show in this paper.