共查询到20条相似文献,搜索用时 46 毫秒
1.
2.
自2011年起,中华手工杂志社开始启动世界工艺文化考察项目、继多次台湾工艺文化之旅、日本工艺文化之旅后,北欧设计之旅提上日程,经数月准备,于2013年9月2日最终成行本次考察跨芬兰、瑞典、丹麦三国,历时13天,考察点涉及世界顶级工艺品牌、设计街区、博物馆、行业协会等,既是在考察艺术与设计、工艺与文化,也在体验北欧国家的风情人文这是一次学习的过程,是共同的外向游历,也是跨行业的內部交流,惟愿人人都有精彩的收获。 相似文献
3.
如果说每年的毕业展,都是学生们对大学生涯的一次回顾,那么对诸多工美学院的毕业生而言,2013年的毕业展无疑多了更深层的内涵.反思,这个词语也许更能说明这一届毕业生们的状态.在西方文化浸染多年之后的今天,工美学子们开始从现代向传统回溯,从精致华丽的时尚向返璞归真的自然回溯……
中央美术学院 家居设计系第九工作室毕业设计
指导老师:江黎、吴永平
在第九工作室的毕业设计中,我们可以闻到浓郁的"中国味"——在家具中添加陶瓷或织物等元素,对明式家具风格进行发散与创新,还有返璞归真"复得返自然"的再设计…..这其中不难看出新鲜出炉的"设计师"们,对传统文化和大自然是何等喜爱.也许他们的设计还很稚嫩,但在商业化严重的华丽时尚之中,这些作品,已经反映出新生代对当代设计艺术的一些反思. 相似文献
4.
5.
6.
<正>近年来,在巴黎和米兰家具展上,曾经式微的手工艺突然成为众多设计师追捧的元素。手工艺与设计之间的关系,正在发生微妙的逆转。曾经需要现代设计拯救的手工艺,如今却扮演了"反哺者"的角色,正在源源不断为设计师提供灵感养料?这并非天方夜谭。在刚落下帷幕的"设计上海"展览上,大批手工艺作品集体亮相成了展览中的最大亮点。无论是首次登陆中国的《Wallpaper》手工展带来的多件设计师手工定制之作,还是老而弥坚的75岁设计师约翰·梅科皮斯(John Makepeace)纯手工镶嵌而成的斑马柜,抑或是1999年才成立的Scabetti工作室拿来的鱼群灯,都给观众留下 相似文献
7.
8.
9.
文章从笔者的角度出发,思考有关陶瓷专业学生的毕业设计中遇到的实际问题,旨在分享教学过程中遇到的问题和解决的方式。 相似文献
10.
文章从笔者的角度出发,思考有关陶瓷专业学生的毕业设计中遇到的实际问题,旨在分享教学过程中遇到的问题和解决的方式. 相似文献
11.
12.
13.
14.
15.
16.
论述生命周期评价系统软件的总体设计方法,确定用户界面设计的内容及布局方案,分析系统的组成结构;对清单数据和分析模型的数据库建设进行分析,论述程序设计的方法及实现代码;分别对清单分析功能模块和影响评价模块的开发方法及代码进行说明,实现了产品生命周期的自动化分析及评价功能,提出基于LCA的环境与经济优化分析方法. 相似文献
17.
Seven experimental criteria for living polymerizations are critically reviewed. The limitations of the use of linear plots of M?n (or X?;n) versus conversion and linear plots of the number of polymer chains versus conversion are illustrated by an example of alkyllithium-initiated polymerization of styrene by incremental additions of styrene with deliberate termination (5% per incremental monomer addition). The experimental criteria of using narrow molecular weight distribution and the formation of block copolymers are illustrated with practical examples and size exclusion chromatography data. The use of the terms ‘living polymerization with reversible termination’ and ‘living polymerization with reversible chain transfer’ are proposed. 相似文献
18.
19.
Ryan W. Hunt Andrey Zavalin Ashish Bhatnagar Senthil Chinnasamy Keshav C. Das 《International journal of molecular sciences》2009,10(10):4515-4558
The surge of interest in bioenergy has been marked with increasing efforts in research and development to identify new sources of biomass and to incorporate cutting-edge biotechnology to improve efficiency and increase yields. It is evident that various microorganisms will play an integral role in the development of this newly emerging industry, such as yeast for ethanol and Escherichia coli for fine chemical fermentation. However, it appears that microalgae have become the most promising prospect for biomass production due to their ability to grow fast, produce large quantities of lipids, carbohydrates and proteins, thrive in poor quality waters, sequester and recycle carbon dioxide from industrial flue gases and remove pollutants from industrial, agricultural and municipal wastewaters. In an attempt to better understand and manipulate microorganisms for optimum production capacity, many researchers have investigated alternative methods for stimulating their growth and metabolic behavior. One such novel approach is the use of electromagnetic fields for the stimulation of growth and metabolic cascades and controlling biochemical pathways. An effort has been made in this review to consolidate the information on the current status of biostimulation research to enhance microbial growth and metabolism using electromagnetic fields. It summarizes information on the biostimulatory effects on growth and other biological processes to obtain insight regarding factors and dosages that lead to the stimulation and also what kind of processes have been reportedly affected. Diverse mechanistic theories and explanations for biological effects of electromagnetic fields on intra and extracellular environment have been discussed. The foundations of biophysical interactions such as bioelectromagnetic and biophotonic communication and organization within living systems are expounded with special consideration for spatiotemporal aspects of electromagnetic topology, leading to the potential of multipolar electromagnetic systems. The future direction for the use of biostimulation using bioelectromagnetic, biophotonic and electrochemical methods have been proposed for biotechnology industries in general with emphasis on an holistic biofuel system encompassing production of algal biomass, its processing and conversion to biofuel. 相似文献