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Általános tudományok (2010)
Diffusion of Innovations
L. Ljungberg (2007)
Materials selection and design for development of sustainable productsMaterials & Design, 28
D. Horn, G. Salvendy (2006)
Consumer‐based assessment of product creativity: A review and reappraisalHuman Factors and Ergonomics in Manufacturing & Service Industries, 16
C. Zhou, G. Yin, Xiao-Bing Hu (2009)
Multi-objective optimization of material selection for sustainable products: Artificial neural networks and genetic algorithm approachMaterials & Design, 30
Alisa White, Fuyuan Shen, Bruce Smith (2002)
Judging Advertising Creativity Using the Creative Product Semantic ScaleJournal of Creative Behavior, 36
S.P. Besemer, K. O'Quin
Creative product analysis: testing a model by developing a judging instrument
Nicholas Lurie, Charlotte Mason (2007)
Visual Representation: Implications for Decision MakingJournal of Marketing, 71
Y. Han Ahn, H. Kwon, A.R. Pearce, H. Shin
Key competencies for US construction graduates: an exploratory factor analysis
IDEMAT
Design for Sustainability Program
C. Bernasconi, M. Strager, Vishakha Maskey, Michael Hasenmyer (2009)
Assessing public preferences for design and environmental attributes of an urban automated transportation systemLandscape and Urban Planning, 90
Susan Besemer (1998)
Creative Product Analysis Matrix: Testing the Model Structure and a Comparison Among Products--Three Novel ChairsCreativity Research Journal, 11
Ilse Kesteren (2008)
Product designers’ information needs in materials selectionMaterials & Design, 29
R.L. Gorsuch
Factor Analysis
Siu-Pan Li, B. Will (2005)
A Fuzzy Logic System for Visual EvaluationEnvironment and Planning B: Planning and Design, 32
J.W. Creswell
Research Design Qualitative, Quantitative and Mixed Methods Approaches
Statistical Package for the Social Sciences (SPSS) version 17.0
SPSS 17.0. for Windows
Survey Monkey
Sustainable materials
M. Baas, Marieke Roskes, Daniel Sligte, B. Nijstad, C. Dreu (2013)
Personality and creativity: the Dual Pathway to Creativity model and a research agendaSocial and Personality Psychology Compass, 7
S. Dammann, M. Elle (2006)
Environmental indicators: establishing a common language for green buildingBuilding Research & Information, 34
R. Gifford, D. Hine, W. Muller-Clemm, D’Arcy Reynolds, Kelly Shaw (2000)
Decoding Modern ArchitectureEnvironment and Behavior, 32
K. Nassar, W. Thabet, Y. Beliveau (2003)
A procedure for multi-criteria selection of building assembliesAutomation in Construction, 12
Transmaterial
Catalogue of materials
N. Schwarz (2000)
Emotion, cognition, and decision makingCognition and Emotion, 14
Susan Besemer, K. O'quin (1999)
Confirming the Three-Factor Creative Product Analysis Matrix Model in an American SampleCreativity Research Journal, 12
Angel Aguilar-Alonso (1996)
PERSONALITY AND CREATIVITYPersonality and Individual Differences, 21
(1999)
Creating breakthroughs at 3M.
J.C. Mower, M.S. Minor
Consumer Behaviour: A Framework
R. Heijungs, G. Huppes, J. Guinée (2010)
Life cycle assessment and sustainability analysis of products, materials and technologies. Toward a scientific framework for sustainability life cycle analysisPolymer Degradation and Stability, 95
Weimin Wang, R. Zmeureanu, H. Rivard (2005)
Applying multi-objective genetic algorithms in green building design optimizationBuilding and Environment, 40
L. Fabrigar, D. Wegener, R. Maccallum, E. Strahan (1999)
Evaluating the use of exploratory factor analysis in psychological research.Psychological Methods, 4
E. Karana
Intangible characteristics of materials in industrial design
H. Pfister, G. Böhm (2008)
The multiplicity of emotions: A framework of emotional functions in decision makingJudgment and Decision Making
C. Thormark (2006)
The effect of material choice on the total energy need and recycling potential of a buildingBuilding and Environment, 41
J. Winter, Dimitra Dodou, P. Wieringa (2009)
Exploratory Factor Analysis With Small Sample SizesMultivariate Behavioral Research, 44
J. Cagan, C.M. Vogel
Creating Breakthrough Products
T. Amabile (1982)
Social psychology of creativity: A consensual assessment technique.Journal of Personality and Social Psychology, 43
D. Horn, G. Salvendy (2009)
Measuring consumer perception of product creativity: Impact on satisfaction and purchasabilityHuman Factors and Ergonomics in Manufacturing & Service Industries, 19
F. Giudice, G. Rosa, A. Risitano (2005)
Materials selection in the Life-Cycle Design process: a method to integrate mechanical and environmental performances in optimal choiceMaterials & Design, 26
M. Ashby, K. Johnson
Materials and Design: The Art and Science of Material Selection in Product Design
J. Russell (2003)
Core affect and the psychological construction of emotion.Psychological review, 110 1
J. Lapierre, Vincent-Pierre Giroux (2003)
Creativity and Work Environment in a High-Tech ContextCreativity and Innovation Management, 12
R. Ries, M. Bilec, Nuri Gokhan, K. Needy (2006)
The Economic Benefits of Green Buildings: A Comprehensive Case StudyThe Engineering Economist, 51
P. Ramalhete, A. Senos, C. Aguiar (2010)
Digital tools for material selection in product designMaterials & Design, 31
P. Glavič, R. Lukman (2007)
Review of sustainability terms and their definitionsJournal of Cleaner Production, 15
L. Crosby, R. Devito, J. Pearson (2003)
Manage Your Customers' Perception of Quality, 24
H. Lingard, S. Rowlinson
Letter to the editor
T.Y. Chueh, D.T. Kao
The moderating effects of consumer perception to the impacts of country‐of‐design on perceived quality
R. Gifford, D.W. Hine, W. Muller‐Clemm, D.J. Jr Reynolds, K.T. Shaw
Decoding modern architecture – a lens model approach for understanding the aesthetic differences of architects and laypersons
U. Abeysundara, S. Babel, S. Gheewala (2009)
A matrix in life cycle perspective for selecting sustainable materials for buildings in Sri LankaBuilding and Environment, 44
D.B. Horn
Quantifying creativity: modeling perception of consumer product design
E. Mora (2007)
Life cycle, sustainability and the transcendent quality of building materialsBuilding and Environment, 42
C. Barnes, S. Lillford (2007)
Affective design decision-making—issues and opportunitiesCoDesign, 3
Matweb
Material property data
Purpose – As more owners seek to develop sustainable buildings, the construction industry is adapting to new requirements in order to meet owners' concerns. Recently, a significant change in the construction industry has been the increased interest in sustainable materials. Sustainable materials are the potential resource to mitigate the impact on the environment and bring significant economic, social, and environmental benefits. For an efficient materials selection process, the content of information should match decision makers' needs and requirements. Although the availability of various information sources on sustainable materials is increasing, researchers have not agreed upon a clear designation, often leading to imprecise definition of the term and its usage. This paper seeks to address these issues. Design/methodology/approach – This study attempts to understand sustainability by concentrating on how this term is reflected in construction materials' images and perceived by design and construction students and practitioners. A measurement instrument is developed based on a literature review and further tested with web‐based evaluation of brick to measure user‐based assessment of product sustainability. Findings – Results of exploratory factor analysis are used to refine the instrument and indicate the main sustainability factors which may be used as guidelines for information developers to present suitable information in materials' databases. Originality/value – This paper fulfils an identified need to study how perceptions may affect decision making to increase the understanding of issues affecting knowledge in product sustainability and awareness of sustainable materials.
Construction Innovation: Information, Process, Management – Emerald Publishing
Published: Apr 12, 2013
Keywords: Sustainable materials; Perceptions; Materials' databases; Factor analysis; Web‐based evaluations; Building design practices; Sustainable design; Sustainable development; Construction materials; Construction industry
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