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Online since: August 2018
Authors: Santina Di Salvo
Advances in Research for Biomimetic Materials
DI SALVO Santina1,a*
1PhD Architect Researcher of DARCH Department of Architecture of Palermo,
viale delle Scienze, University of Palermo, Italy
asantina.disalvo@unipa.it
Keywords: biomimetic envelope; adaptive, sustainability; smart materials; efficiency
Abstract.
The relationship between Architecture and Nature is a driving force in the development of research lines intersecting multidisciplinary methodologies that go beyond the architectural project and involve disciplines such as Materials Science, Chemistry, Nanotechnology, Ecology and Biomimetics.
Nanostructural materials have been studied to make façade coatings.
Materials with self-healing properties.
I materiali bioispirati per un design sostenibile e rigenerativo, MD Journal 1 (2016) 66-77
The relationship between Architecture and Nature is a driving force in the development of research lines intersecting multidisciplinary methodologies that go beyond the architectural project and involve disciplines such as Materials Science, Chemistry, Nanotechnology, Ecology and Biomimetics.
Nanostructural materials have been studied to make façade coatings.
Materials with self-healing properties.
I materiali bioispirati per un design sostenibile e rigenerativo, MD Journal 1 (2016) 66-77
Online since: December 2011
Authors: Wolfgang W. Schmahl, Erika Griesshaber, Harvinder Singh Ubhi
Nanometer scale microstructure and microtexture of biological materials revealed by high spatial resolution (15 to 5 kV) EBSD
Erika Griesshaber1,a Harvinder Singh Ubhi 2,b, Wolfgang W.
Schmahl1,c 1Department of Geo- and Environmental Sciences, LMU, Munich, Germany. 2Oxford Instruments, Halifax Road, High Wycombe, HP12 3SE,UK.
ae.griesshaber@lrz.uni-muenchen.de, bsingh.ubhi@oxinst.com, c wolfgang.schmahl@lrz.uni-muenchen.de Keywords: low kV EBSD, high-resolution microstructure, micro-texture, biological materials Abstract.
Harper, European Journal of Mineralogy Vol. 21 (2009), p 303 [3] W.
Brand, European Journal of Mineralogy Vol. 16 (2004), p 693 [4] W.
Schmahl1,c 1Department of Geo- and Environmental Sciences, LMU, Munich, Germany. 2Oxford Instruments, Halifax Road, High Wycombe, HP12 3SE,UK.
ae.griesshaber@lrz.uni-muenchen.de, bsingh.ubhi@oxinst.com, c wolfgang.schmahl@lrz.uni-muenchen.de Keywords: low kV EBSD, high-resolution microstructure, micro-texture, biological materials Abstract.
Harper, European Journal of Mineralogy Vol. 21 (2009), p 303 [3] W.
Brand, European Journal of Mineralogy Vol. 16 (2004), p 693 [4] W.
Online since: March 2019
Authors: Ho Ky Thanh, Duc Duy Nguyen, Tran Van Dung
MMCs are one of the groups of such type of materials.
References [1] Hao Wu, Qiang Li; Application of mechanochemical synthesis of advanced materials; Journal of Advanced Ceramics, 2012, vol.1, Issue 2, pp. 130–137
[3] Seung J.Hwang, Jin-hyung Lee; Mechanochemical synthesis of Cu-Al2O3 nanocomposites; Materials Science and Engineering A, 2005, vol. 405, pp. 140-146
Motta; In-situ formation of Cu–Al2O3 nano-scale composites by chemical routes and studies on their microstructures; Materials Science and Engineering A313, 2001, pp. 180–186
Zhang; Processing of Cu-Al2O3 metal matrix nanocomposite materials by using high energy ball milling; Materials Science and Engineering A286, 2000, 152-156
References [1] Hao Wu, Qiang Li; Application of mechanochemical synthesis of advanced materials; Journal of Advanced Ceramics, 2012, vol.1, Issue 2, pp. 130–137
[3] Seung J.Hwang, Jin-hyung Lee; Mechanochemical synthesis of Cu-Al2O3 nanocomposites; Materials Science and Engineering A, 2005, vol. 405, pp. 140-146
Motta; In-situ formation of Cu–Al2O3 nano-scale composites by chemical routes and studies on their microstructures; Materials Science and Engineering A313, 2001, pp. 180–186
Zhang; Processing of Cu-Al2O3 metal matrix nanocomposite materials by using high energy ball milling; Materials Science and Engineering A286, 2000, 152-156
Online since: September 2016
Authors: Ho Sung Lee, Kookil No
Recently, with a help of computational materials engineering, it is possible to design materials and process to produce high performance materials which have a new property.
Wanhill, Internal Journal of Fatigue, Vol. 16(1994), p. 3-20
Yi, Materials Science Forum, Vol. 658 (2010), p. 336-339
Lutfullin, Materials Science and Engineering, Vol. 323(2002), p. 416-426
Yi, SAE International Journal of Aerospace, Vol. 2(2010):258-262
Wanhill, Internal Journal of Fatigue, Vol. 16(1994), p. 3-20
Yi, Materials Science Forum, Vol. 658 (2010), p. 336-339
Lutfullin, Materials Science and Engineering, Vol. 323(2002), p. 416-426
Yi, SAE International Journal of Aerospace, Vol. 2(2010):258-262
Online since: July 2015
Authors: Hamizah Shamsudeen, Huey Ling Tan
Molecular self-assembly is ubiquitous in nature and has now emerged as a new approach in chemical synthesis, engineering, nanotechnology, polymer science, and materials.
Zhang, Building From the Bottom Up, Materials Today, 2003 [6] Tan H.
Sciences, S.
Journal of the American Chemical Society 2003, 125, (39), 11802-11803
P., Self-Assembling Materials for Therapeutic Delivery, Acta Biomaterilia 5, 817-831, 2009
Zhang, Building From the Bottom Up, Materials Today, 2003 [6] Tan H.
Sciences, S.
Journal of the American Chemical Society 2003, 125, (39), 11802-11803
P., Self-Assembling Materials for Therapeutic Delivery, Acta Biomaterilia 5, 817-831, 2009
Online since: October 2010
Authors: Humberto Gracher Riella, K.F. Silva, A. Teixeira, Luciano Silva, Elídio Angioletto, Elton Mendes, M.A. Fiori, M.M.S. Paula
In the past years were developed many works with biocidal materials and additives with applications in polymeric and ceramic materials or in others materials classes [1].
In the additive form the materials can be applied in many others materials to increase the biocidal properties.
Lim: Dental Materials 25 (2009), p. 206
Angioletto: Materials Science and Engineering C Vol. 29 (2009), p. 1569
Materials Science Forum Vols. 591-593 (2008), p. 362.
In the additive form the materials can be applied in many others materials to increase the biocidal properties.
Lim: Dental Materials 25 (2009), p. 206
Angioletto: Materials Science and Engineering C Vol. 29 (2009), p. 1569
Materials Science Forum Vols. 591-593 (2008), p. 362.
Online since: January 2006
Authors: Xu Yue Wang, Ren Ke Kang, Wen Ji Xu, Yi De Liang
Chua: Journal of Materials Processing Technology Vol. 136 (2003), p. 166
[3] H.
Chua: Journal of Materials Processing Technology Vol. 84 (1998), p. 47 [5] A.
Campana: Applied Surface Science 9584 (2003), p. 1 [7] A.
Powell: Journal of Materials Processing Technology Vol. 40 (1994), p. 359 [8] N.
Lu: Journal of Materials Processing Technology Vol. 129 (2002), p. 152 [14] W.J.
Chua: Journal of Materials Processing Technology Vol. 84 (1998), p. 47 [5] A.
Campana: Applied Surface Science 9584 (2003), p. 1 [7] A.
Powell: Journal of Materials Processing Technology Vol. 40 (1994), p. 359 [8] N.
Lu: Journal of Materials Processing Technology Vol. 129 (2002), p. 152 [14] W.J.
Online since: May 2019
Authors: Varinthorn Boonyaroj, Sirichai Saramanus
The mechanical strength of the derived filtration materials was evaluated in terms of compressive strength.
The properties of the fabricated filtration materials were investigated in terms of material shrinkage, permeability, strength, and density of the filtration materials.
Filtration materials from eggshell ash.
The physical properties of filtration materials have recently gained more attention due to efforts of replacing activated carbon in wastewater treatment.
A., Ouwaseun, O., “Optimisation of biodiesel production from waste vegetable oil and eggshell ash”, South African Journal of Chemical Engineering, Vol. 23, pp. 145-156, 2017 [5] Varinthorn, B., Chart., Wilai, C., Kazuo, Y., “Enhanced biodegradation of phenolic compounds in landfill leachate by enriched nitrifying membrane bioreactor sludge”, Journal of Hazardous Materials, Vol. 323, pp. 311-318, 2017
The properties of the fabricated filtration materials were investigated in terms of material shrinkage, permeability, strength, and density of the filtration materials.
Filtration materials from eggshell ash.
The physical properties of filtration materials have recently gained more attention due to efforts of replacing activated carbon in wastewater treatment.
A., Ouwaseun, O., “Optimisation of biodiesel production from waste vegetable oil and eggshell ash”, South African Journal of Chemical Engineering, Vol. 23, pp. 145-156, 2017 [5] Varinthorn, B., Chart., Wilai, C., Kazuo, Y., “Enhanced biodegradation of phenolic compounds in landfill leachate by enriched nitrifying membrane bioreactor sludge”, Journal of Hazardous Materials, Vol. 323, pp. 311-318, 2017
Online since: January 2025
Authors: Rashid Ahmad, Majid Ali
Construction and Building Materials, 278, 168-189
Construction and Building Materials, 302, 124134
Construction and Building Materials, 182, 94-107
Journal of Material Research and Technology, 13, 872-893
Construction and Building Materials, 42, 168-189
Construction and Building Materials, 302, 124134
Construction and Building Materials, 182, 94-107
Journal of Material Research and Technology, 13, 872-893
Construction and Building Materials, 42, 168-189
Online since: December 2014
Authors: Xu Mei Zhang, Shao Hua Wei
With the development of economy and the progress of science and technology, logistics market competition is becoming more and more fierce.
This study is supported by Natural Science Foundation of China (NSFC) under Grant No. 51275365 and school fund of Wuhan University of Science and Technology under Grant No.250089 and open fund of Wuhan University of Science and Technology under Grant No.C1009 and Hubei Province Collaborative Innovation Center for Automotive Part and Assembly Technology.
SIAM Journal on Optimization, 17, pp. 943–968
-j;Li,B;Duan ,T-y: Evaluation of the service Quality of Third-paity Logistics Based on Fuzzy AHP[J].INDUSTRIAL ENGINEERING JOURNAL-GUANGZOU. 2005.8(3) [12] Saura Irene Gil;Frances,David servera:Logistics service quality;;a new way to loyalty[J].Industrial Mannagement & Data systems.2008.108(5) [13] Zheng,B;feng,Y X;Tan,J R;Che,J Han: Exploratory study of logistics service Quality Model[J].
Materials Science Forum.2007.532 [14] Chou,C C:A Model for Evaluating the Service Quality of Transshipment Logistics[J].Key Engineering Materials.2010.426 [15] Mentzer,John T :Developing a logistics service Quality scale[J].Journal of Business Logistics.1999.1999
This study is supported by Natural Science Foundation of China (NSFC) under Grant No. 51275365 and school fund of Wuhan University of Science and Technology under Grant No.250089 and open fund of Wuhan University of Science and Technology under Grant No.C1009 and Hubei Province Collaborative Innovation Center for Automotive Part and Assembly Technology.
SIAM Journal on Optimization, 17, pp. 943–968
-j;Li,B;Duan ,T-y: Evaluation of the service Quality of Third-paity Logistics Based on Fuzzy AHP[J].INDUSTRIAL ENGINEERING JOURNAL-GUANGZOU. 2005.8(3) [12] Saura Irene Gil;Frances,David servera:Logistics service quality;;a new way to loyalty[J].Industrial Mannagement & Data systems.2008.108(5) [13] Zheng,B;feng,Y X;Tan,J R;Che,J Han: Exploratory study of logistics service Quality Model[J].
Materials Science Forum.2007.532 [14] Chou,C C:A Model for Evaluating the Service Quality of Transshipment Logistics[J].Key Engineering Materials.2010.426 [15] Mentzer,John T :Developing a logistics service Quality scale[J].Journal of Business Logistics.1999.1999