Search results

China has the advantage of abundant raw materials but the yield stays low(less than 10%) due to the lack of technology[1].
Materials and Methods Main experiment materials: Phytin, Lime Milk, Calcium Carbonate Liquor, Activated Carbon, Anion and Cation Exchange Column, Barium Chloride Liquor (1mol/L), Silver Nitrate Liquor (1mol/L), Ammonium Oxalate Liquor (1mol/L).
Experiment process: Analysis and Research Raw materials.
The quality of raw material is crucial.
[7] Li J : The technology to extract inositol from rice hulls and the measures of engineering data[D].

Quality Control Measures of EPS External Thermal Insulation Board Jie Zhang 1, Yun Xue2 The school of architecture & civil engineering, Inner Mongolia University of science and technology, Baotou, Inner Mongolia, 014010, China 1zhangjieav@163.com,2 xueyun062_cn@163.com Keywords: EPS insulation system; Material properties; Construction technology; Engineering quality Abstract.
In engineering applications, it is extremely important to improve the thermal insulation engineering quality to familiar with the structure principle, strengthen strict re-inspection of the material properties , standardized operation and fine construction, but also conducive to ensure its energy-saving effect and durability.
In engineering applications, it should be strengthen the implementation of the quality control measures of EPS insulation system.
Strengthen the materials performance re-inspection of the insulation system The component materials properties and structure mode of the insulation system directly influence the energy-saving effect and durability of the external insulation engineering.
(In Chinese) [3] Guangqi Ji: Analysis of external thermal insulation fireproof technology approach [J].Wall materials innovation and building energy-saving.2008 (11).

All these people had studied the fiber optic sensors used in geotechnical engineering monitoring [3-13]; they proposed that the fiber optic sensor which is the new intelligent strain testing equipment is the best material for long-term monitoring of geotechnical engineering structures, but not qualified for the monitoring of the large deformation.
The key to success of strain monitoring of the geotechnical engineering is to collect the strain of typical deformation unit of rock and soil mass timely and ensure the information is objective, true and reliable.
Safety assessment, health monitoring and damage diagnosis for structures in civil engineering [J].Earthquake engineering and Engineering vibration, 2002, 22(3):82-89
Smart Material Structure, 1996, 5
Comparative study of smart sensing material used in the smart monitoring of civil engineering [J].Architecture Technology, 2002, 33(4):270-272

Characterization of Hydroxyapatite/Silk Fibroin/Chitosan Scaffold for Cartilage Tissue Engineering Kittiya Thunsiri1,2,3,a, Atitaya Oonjai3,b, and Wassanai Wattanutchariya2,3,c* 1Biomedical Engineering Program, Faculty of Engineering, Chiang Mai University, Chiang Mai 50200, Thailand 2Biomedical Engineering Center (BMEC), Chiang Mai University, Chiang Mai 50200, Thailand 3Advanced Technology Research Center (AMTech), Department of Industrial Engineering, Faculty of Engineering, Chiang Mai University, Chiang Mai 50200, Thailand akittiya.thunsiri@hotmail.com, bAtitaya_tt@hotmail.com, cwassanai@eng.cmu.ac.th Keywords: Tissue Engineering; Biomaterials; Lyophilization; Scaffold; Cartilage.
Introduction Currently, tissue engineering (TE) is the key therapeutic approach to fulfill limitation of natural tissue repairing when the injury exceeds critical size.
Materials and Method Hydroxyapatite Preparation.
Matthew, Porous chitosan scaffolds for tissue engineering.
Jérôme, Chitosan-based biomaterials for tissue engineering.

This book shows the key role of microscopy and other various analytical techniques in the modern materials science including for the research of metals, ceramics, polymers, composites, nanomaterials and biomaterials.
All contributions in this book concentrated around materials with properties and applications that may aid in solving pressing global issues such as environment, pollution, energy and biomedicine.

Research on Kansei Engineering and Its Application in Massage Chair Design WANG Zhenyaa, LIANG Yingyingb , SHI Huihuic School of Mechanical Engineering, Shandong University, Jinan, China a wangzhenya@sdu.edu.cn, b liangying8406@126.com, c shi_huihui@163.com Key words: Kansei Engineering, product design, massage chair, Semantic Differential.
Kansei Engineering is a technical methodology to translate consumer’s Kansei into product design elements.
In the material quality there are the plastic, the log, the leather, the metal and different material matching combination.
Kansei Engineering is a very effective technology which could be applied widely in product design.
The research about Kansei Engineering can bring economic efficiency and social efficiency for us.

China a wangshitao@pku.edu.cn, b 0006164523@pku.edu.cn, c zhangbinzhen@ime.pku.edu.cn, d leiyh2010@pku.edu.cn, e 971230012@163.com, f haoyilong@pku.edu.cn Key words: Cushion materials, Aluminum foam, Metal rubber, Microaccelerometer Abstract: This work studied the cushion efficiencies of aluminum foam and metal rubber as the cushion materials for microaccelerometers under shock load.
Mechanical Engineering, 2002, 12: p. 1163-1170
Journal of Materials Science,2001, 36: p. 2773-2786
International Journal of Impact Engineering, 2000, 24: p. 277-298
China Mechanical Engineering, 2001, 12: p. 1294-1297.

Finally, the article puts forward three key problems of crop straws, which are used as the building wall materials and thermal insulation materials.
At present, the industrial conversion of crop straws are used as the architectural wall materials, Thermal insulation Materials, etc.
Professor Xiao Li, from Jilin construction engineering college, used straws to develop a new type of straw lightweight insulation block in 2011, and it used broken corn straws as the main material, mixing with cement and surface modification agent.
Crop Straws as the Architectural Wall Materials and Thermal Materials Are Existing Problem Crop straws as the architectural wall materials and Thermal insulation Materials need to consider the question of antiseptic treatment, Moistureproof processing, Mouldproof treatment and so on.
According to crop straws as the architectural wall materials and Thermal insulation Materials, this paper summarizes the mechanical property and thermal performance, and elaborates three key problems of crop straws as the architectural wall materials and Thermal insulation Materials.

Cost control of the civil engineering based on activity-based costing Yanhong LIU a, Guangling HU, Qinli WANG Financial department, Shenyang Aerospace University, Shenyang, China, 110136 asaucwclyh@yahoo.com.cn Keywords: civil engineering, cost control, cost management, activity-based costing Abstract.
The proposed method can provide the useful information to manage total processes in civil engineering.
In the civil engineering industry, the aim of project control is to ensure that projects finish on time, within budget and achieve other project objectives.
Despite the wide use of these methods and software packages in practice, many civil engineering projects still suffer time and cost overruns.
This operation may belong to either essential or contributory processes. 5) Cleaning: an operation dedicated to remove rubbish and waste materials from workstations or from construction sites.

Nanotechnology in Mechanical Engineering - A Review R.
Beyond traditional mechanical engineering, nanotechnology finds applications in biomechanics, shaping advancements in healthcare through innovative biomedical devices and materials.
From 2005 onwards, nanomanufacturing research has surged, particularly in engineering, material science, physics, and optics, tackling nanoscale challenges, precision at the nano level, intricate shapes, and novel materials.
The distinctive physical and chemical properties exhibited by nanomaterials play a key role in enhancing a diverse range of materials, leading to substantial improvements in engineered components.
By actively engaging in such research endeavours, they contribute to the evolution of materials engineering, fostering advancements that have the potential to revolutionize manufacturing processes and the overall landscape of mechanical engineering applications.[24] Fig. 12.