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Geometrical Shielding Produced by Intergranular Crack-tip Branching in Fe–V–P Alloy Jana Horníkováa, Pavel Šanderab, Libor Pantělejevc and Jaroslav Pokludad Faculty of Mechanical Engineering, Brno University of Technology, Technická 2, 616 69 Brno, Czech Republic ahornikova@fme.vutbr.cz, bsandera@fme.vutbr.cz, cpantelejev@fme.vutbr.cz, dpokluda@fme.vutbr.cz Keywords: crack branching, Fe–V–P alloy, crack-tip shielding, intrinsic fracture toughness, grain boundaries.
This kind of shielding belongs to so called extrinsic components of fracture toughness which can be used as a toughening mechanism in the research and technology of advanced ceramics [11].
Forum 482 (2005) 191
Forum 567–568 (2008) 33

Preface CEME2012 is a comprehensive conference,and it is an integrated conference concentrating its focus upon Civil Engineering and Material Engineering.
In the proceeding, you can learn much more knowledge about Civil Engineering and Material Engineering of researchers all around the world.
In order to meet high standard of Advanced Material Research,the organization committee has made their efforts to do the following things.
The goal of the conference is to provide researchers from Civil Engineering and Material Engineering fields with a free exchanging forum to share the new ideas, new innovation and solutions with each other.

At present, Grades related to the Industrial Engineering (Degree in Mechanical Engineering, in Electrical Engineering, in Engineering in Industrial Technologies, in Chemical Engineering, ...) have been designed in Spanish universities defining different curricula following the ministerial order that regulates the profession of Industrial Technical Engineer in its different specialties [2].
Ability to design and automate production systems and advanced process control
Degree in Mechatronics Engineering.
Degree in Mechanical Engineering.
The accreditation of industrial engineering in Spain: teaching and learning the skills of Manufacturing Engineering.

The Machining, Material and Mechanical Technology (3M) have advanced considerably on the last decades through many dedicated individuals and teams efforts of our community, and are impacted directly nowadays by the industrial revolutions 4.0 and might be extending into various fields in both science and engineering.
The IC3MT 2018 conference provided a forum for researchers and experts of all around the world to exchange all the state-of-the-art Machining, Material, and Mechanical Engineering researches and development successfuly.
We hope this book will be of special usefulness to all researchers and engineers from various fields of Machining, Materials and Mechanical Technologies.
Huy Bich Nguyen, Ph.D Editor-in-chief Organizing and Committees Organized by · National Key Laboratory of Digital Control and System Engineering (DCSELAB) Ho Chi Minh University of Technology, VNU-HCM, Vietnam · Japan Society of Precision Engineering (JSPE), Japan · National Central University (NCU), Taiwan Co-Organized by · Technical Committee of Cutting of JSPE, Japan · Technical Committee of Machining of Difficult-to-cut Materials of JSPE, Japan Chairman NGUYEN Thanh-Nam, DCSELAB-HCMUT, Vietnam Co-Chairman CHEN Jyh-Chen, National Central University, Taiwan YAMADA Keiji, Hiroshima University, Japan OHASHI Kazuhito, Okayama University, Japan CHOI Hyeung – Sik, Korea Maritime and Ocean University, Korea The International Advisory Committee BANH Tien Long, Hanoi University of Science and Technology, Vietnam CHEN Ching-Yao, National Chiao Tung University, Taiwan LIU De-Shin, National Chung Cheng University, Taiwan LIN Ta-Hui, National

Fracture Analysis of Functionally Graded Thermal Barrier Coating with Interface Crack by Computational Micromechanics Method Shu-Yong Yang 1,a, Li-Sheng Liu 1,b and Qing-Jie Zhang 1,c 1 State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, 122 Luoshi Road, Wuhan 430070, P.R.China a youngsy@mail.whut.edu.cn, bliulish@mail.whut.edu.cn, cqjzhang@public.wh.hb.cn Keywords: Computational micromechanics method.
The fracture of the functionally graded thermal barrier coating (TBC) under the thermal loads is a key for the engineering application of this kind of materials.
Forum Vol. 423-425 (2003), p. 1
Kim: Engineering Fracture Mechanics Vol. 68 (2001), p. 1013
Forum Vol. 423-425 (2003), p. 687

Through the study of advanced international logistics development model, we know that the logistics industry development trend is inseparable from convenient transportation, extensive and integration market as well as the integration of technology, which is the basis to promote the future logistics industry development.
This is the challenge of trade logistics park which represents the most advanced model of future commerce logistics has to face in new age.
References [1] Xinzhe Wang, Ying Wang: The Planning of Logistics Park Based on Advantages and Special Clients [J], Urban Planning Forum, 2005(5), in Chinese
[2] Ping Xiong, Dongyuan Yang: Review of the Development of Logistics Industry in Shanghai Pudong District [J], Urban Planning Forum, 2005(5), in Chinese
[3] L Yaohua Hong: Talking Architectural Design of Modern Logistics Base with Engineering Examples [J], Guangdong Building Materials, 2010(7), in Chinese

Characterization of Microstructure and Mechanical Properties of a Nb-Microalloyed Steel after Quenching-Partitioning-Tempering Process Xiaodong Wanga, Zhenghong Guob, Yonghua Rongc School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China a xdwang77@sjtu.edu.cn, b zhenghongguo@sjtu.edu.cn, c yhrong@sjtu.edu.cn Keywords: Quenching-partitioning-tempering process, mechanical property, microstructure, characterization Abstract.
Introduction Over the years, advanced high strength steels (AHSS), such as dual-phase (DP), transformation induced plasticity (TRIP) steels, have greatly attracted in the automobile industry since the requirement on car safety regulations and environmental concerns.
Forum Vol. 426-432 (2003), p. 1089
Wang, In: Proceedings of the 3rd International Conference on Advanced Structural Steels, (2006), p. 885
Forum.

Shalomov, Physical modelling of changes in the energy impact on a worker taking into account high-temperature radiation, Journal of Achievements in Materials and Manufacturing Engineering, 91(1) (2018) 27–33
Wakelyn, Environmentally friendly flame resistant textiles, Advances in Fire Retardant Materials Woodhead Publishing Series in Textiles, (2008) 188–212
Qu, Multifunctional conductive cellulose fabric with flexibility, superamphiphobicity and flame-retardancy for all-weather wearable smart electronic textiles and high-temperature warning device, Chemical Engineering Journal, 390 (2020) 124508
Skorodumova, Mathematical Modeling of the Protective Effect of Ethyl Silicate Gel Coating on Textile Materials under Conditions of Constant or Dynamic Thermal Exposure, Key Engineering Materials, 927 (2022) 77–86
Chebotaryova, Improving the Fire-Retardant Properties of Cotton-Containing Textile Materials through the Use of Organo-Inorganic SiO2 Sols, Key Engineering Materials, 927 (2022) 63–68

In the last decade new coatings with advanced substrate materials have allowed to implement tools in more extreme conditions, e.g. applying higher working temperatures and higher contact pressures to the coating [1-5].
Financial support from the R&D programme „Materials technology” is acknowledged for supporting the project „Advanced thin hard coatings in tooling” No.
Forum. 681 (2011) 455-460
Forum. 681 (2011) 165-170
Forum. 404-407 (2002) 849-854

Ramos-Garza1, Francisco Vázquez-Acosta1, and Soo Wohn Lee 2 1 Ecomaterials and Energy Department, Civil Engineering Faculty, Universidad Autónoma de Nuevo León 66451, México 2 Division of Materials and Chemical Engineering, Sun Moon University; ChungNam 336-708, South Korea a Corresponding author: lettorresg@yahoo.com Tel: +52 81 8400 2476; Fax: +52 81 8376 0477 Keywords: Bi2InTaO7; pyrochlore-type structure; sol-gel; photocatalytic activity.
Their structural characterization was carried out by means of X-ray diffraction using a Bruker D8 Advance difractometer, and scanning electron microscopy using a JEOL JSM-6490-LV microscope.
Forum Vols. 423-425 (2003) p. 485
Forum Vols. 486-487 (2005) p. 85