Thomas Kvan

Bio: Thomas Kvan is an academic researcher from University of Melbourne. The author has contributed to research in topics: Design studio & Cultural heritage. The author has an hindex of 23, co-authored 86 publications receiving 1977 citations. Previous affiliations of Thomas Kvan include University of Sydney & University of Hong Kong.

Must Burnout End up with Dropout

Abstract: This paper examines burnout’s consequence on architecture students’ commitment profile. The Chinese version of the Maslach Burnout Inventory-Student Survey and the revised version of the Occupational Commitment Questionnaire were administered to students enrolled in two architecture schools in Hong Kong; 294 of which participated in the study. Multiple-regression results support the idea that burnout does not necessarily result in dropout. As affective commitment and normative commitments decrease with burnout, continuance commitment increases to retain the burned-out students in the study program. However, burnout de-healthilises the commitment profile of students, shifting students’ focus of learning from the task to the cost, as well as shifting students’ attitudes of study from passionate to calculative. This study suggests a need to prevent burnout and build up healthy commitment profile among architecture students.

Immersive 3D architectural worlds: How to get in and out again

Abstract: In this paper, we examine the perception and understanding of spatial volumes within immersive, non-immersive virtual environments and physical models and their translation to a tangible representation in a series of design-representation experiments. Students experienced, assessed, and analysed spatial relationships of volumes and spaces and subsequently constructed models of these spaces. The goal of our study is to identify how designers perceive space in Virtual Environments (VE). We explore issues of quality, accuracy and understanding of rebuilding architectural experienced. By comparison of the same task within a screen-based or real 2D realm, we are able to draw some conclusions about aspects particular to immersive VE activity.

The use of rapid prototyping for architectural concept modelling

Abstract: This paper describes how Rapid Prototyping technology has been integrated into a conceptual design course in the Department of Architecture in The University of Hong Kong. Students have been using this technology for nearly 3 years now and the demand for models and the range and complexity of the models is ever increasing. A number of factors have been found to be of general interest; including the constraints of technology used; the use of colour; material and texture; and applications. Some observations on use of software are also included. As a result of this program; a large research project is now looking into the differences in the teaching of design and conceptual modelling to Architectural and Mechanical Engineering students.

Agile housing for an ageing Australia

Abstract: By 2055, Australia’s 65+ population will have doubled and, if current strategies are followed, it is likely that the housing available will be inappropriate. Today’s housing stock will still be in use yet few developers and designers are capitalising on the potential of agile housing and, more broadly, the creation of age-friendly neighbourhoods. Current changes in design and prefabrication technology, along with government initiatives for ageing at home in preference to institutional care, have the potential to transform the way we consider housing design to support changing demographics. This research considers agile housing for an ageing population from the perspectives of urban planning, design, prefabrication, sustainability, life-cycle costing and social gerontology. We highlight the need for interdisciplinary perspectives in order to consider how entrenched policy, planning, design and construction practices can be encouraged to change through advocacy, design speculation and scenario testing to deliver right-sized housing. A cradle-to-grave perspective requires the exploration of the social and practical benefits of housing in multigenerational communities. This research links to concurrent work on affordable housing solutions and the potential of an industry, government and academic partnership to present an Australian Housing Exposition, that will highlight the possibilities of a more agile housing approach.

Narrative Methods for the Human Sciences

Abstract: Whatever our proffesion, narrative methods for the human sciences can be excellent source for reading. Locate the existing files of word, txt, kindle, ppt, zip, pdf, as well as rar in this site. You can definitely check out online or download this publication by right here. Now, never ever miss it. Searching for a lot of offered publication or reading source worldwide? We supply them all in layout kind as word, txt, kindle, pdf, zip, rar and ppt. among them is this qualified narrative methods for the human sciences that has actually been composed by Still confused how you can get it? Well, simply check out online or download by signing up in our website below. Click them. Our goal is always to offer you an assortment of cost-free ebooks too as aid resolve your troubles. We have got a considerable collection of totally free of expense Book for people from every single stroll of life. We have got tried our finest to gather a sizable library of preferred cost-free as well as paid files. GO TO THE TECHNICAL WRITING FOR AN EXPANDED TYPE OF THIS NARRATIVE METHODS FOR THE HUMAN SCIENCES, ALONG WITH A CORRECTLY FORMATTED VERSION OF THE INSTANCE MANUAL PAGE ABOVE.

Polymers for 3D Printing and Customized Additive Manufacturing

Abstract: Additive manufacturing (AM) alias 3D printing translates computer-aided design (CAD) virtual 3D models into physical objects. By digital slicing of CAD, 3D scan, or tomography data, AM builds objects layer by layer without the need for molds or machining. AM enables decentralized fabrication of customized objects on demand by exploiting digital information storage and retrieval via the Internet. The ongoing transition from rapid prototyping to rapid manufacturing prompts new challenges for mechanical engineers and materials scientists alike. Because polymers are by far the most utilized class of materials for AM, this Review focuses on polymer processing and the development of polymers and advanced polymer systems specifically for AM. AM techniques covered include vat photopolymerization (stereolithography), powder bed fusion (SLS), material and binder jetting (inkjet and aerosol 3D printing), sheet lamination (LOM), extrusion (FDM, 3D dispensing, 3D fiber deposition, and 3D plotting), and 3D bioprinting....

A Review of Additive Manufacturing

Abstract: Additive manufacturing processes take the information from a computer-aided design (CAD) file that is later converted to a stereolithography (STL) file. In this process, the drawing made in the CAD software is approximated by triangles and sliced containing the information of each layer that is going to be printed. There is a discussion of the relevant additive manufacturing processes and their applications. The aerospace industry employs them because of the possibility of manufacturing lighter structures to reduce weight. Additive manufacturing is transforming the practice of medicine and making work easier for architects. In 2004, the Society of Manufacturing Engineers did a classification of the various technologies and there are at least four additional significant technologies in 2012. Studies are reviewed which were about the strength of products made in additive manufacturing processes. However, there is still a lot of work and research to be accomplished before additive manufacturing technologies become standard in the manufacturing industry because not every commonly used manufacturing material can be handled. The accuracy needs improvement to eliminate the necessity of a finishing process. The continuous and increasing growth experienced since the early days and the successful results up to the present time allow for optimism that additive manufacturing has a significant place in the future of manufacturing.