What are the sub fields in product design industry?5 answersProduct design in the industry encompasses various subfields such as molecular products, formulated products, devices, and functional products. It involves product conceptualization (what-to-make) and manufacturing processes (how-to-make), utilizing computer-aided design tools for prediction and experimentation to generate products with specified attributes. Additionally, product design includes product engineering through deliberate molecular changes and the addition of auxiliary agents, formulations, or mixtures to tailor products for specific applications. Furthermore, product design involves the utilization of 3D CAD-based model data and 2D product projection data for efficient design processes, enabling the creation of products aligned with customer preferences in a shorter time frame. Overall, product design is a multidisciplinary field crucial for the formation, formulation, handling, manufacturing, and characterization of diverse products with specific properties.
How does design of products effect marketing?5 answersThe design of products plays a crucial role in marketing by influencing consumer behavior, emotions, and competitive advantage. Effective product design, encompassing aesthetics, functionality, and symbolism, can evoke positive emotions like joy, desire, hope, and pride, leading to increased purchase intention and word-of-mouth behavior. Conversely, negative emotions such as boredom can inhibit consumer actions. Product design not only impacts initial visual perception but also influences consumer behavior during product use, highlighting the importance of long-term user-product interactions. Moreover, design orientation, stimulated by proactive market orientation, can help companies differentiate their products, gain competitive advantages, and enhance business effectiveness. Therefore, integrating design into marketing strategies is essential for creating innovative, appealing products that resonate with consumers and drive success in the market.
What are some common design elements that users prefer in products?5 answersUsers commonly prefer design elements that cater to their emotional needs, style preferences, and attention distribution. Emotional design, focusing on emotional arousal and converting users to positive emotional states, is crucial for creating satisfying products. Understanding users' style preferences through image-based user studies can lead to intuitive and accurate product designs that meet users' tastes. Additionally, considering users' attention distribution to different product features under various emotional conditions can guide designers in arranging design elements effectively. Moreover, incorporating user preferences, robustness, and energy efficiency in product design can enhance user satisfaction and product usability. By integrating these aspects into the design process, designers can create products that not only meet functional needs but also resonate with users emotionally and aesthetically.
How does DfAM impact the design and development of innovative products?5 answersDesign for Additive Manufacturing (DfAM) has a positive impact on the design and development of innovative products. DfAM provides a necessary framework for using novel additive manufacturing (AM) technologies to drive engineering innovations. It enables the creation of high-performance designs by considering materials, processes, and constraints during fabrication steps. DfAM also allows for the integration of controlled lattice structure deformations, which can replace rigid multi-part mechanisms with compact and precise components. Additionally, DfAM enables the production of specialized filaments with controlled cross sections and mechanical properties, opening up opportunities for tailored designs and applications. By bridging the gap between research and practice, DfAM supports the successful use of additive manufacturing in industry and addresses industry needs for innovative products. Overall, DfAM research and methodologies contribute to the advancement of design innovation in various fields, including aerospace, automotives, construction, food, medicine, and robotics.
How can we use CAD for visualization for Product Design?5 answersCAD (Computer Aided Design) tools offer designers a variety of tools to automate the design process and handle geometrical complexity. Visual programming in CAD allows product designers to create customized designs based on 2D patterns and present them using high-end rendering images, increasing their added value. CAD systems like Siemens' NX provide a range of applications for product design, including structure management, classification, and advanced studio for rendering and visualization. In China, Visual C++ programming is used to develop CAD software for buffer packaging design, which simplifies the design process, shortens the R&D cycle, and avoids destructive testing. Visualization tools, such as color-coded 3D CAD models, can be used to communicate value-related information and enhance decision-making in design projects. Overall, CAD can be used for visualization in product design by automating the design process, providing rendering and visualization tools, and facilitating communication of design intent and value-related information.
What is complex product design?5 answersComplex product design refers to the process of developing products that have multiple dimensions or measures of complexity. It involves considering factors such as product quality, information acquisition, alignment between designers and consumers, product demand, competition among designers, and the interdependence of product functions. The complexity of a product can impact various aspects of the design process, including project planning, resource demand estimation, decision-making, and collaboration between designers. Different approaches and models have been proposed to assess and mitigate product complexity, with a focus on optimizing design options based on multi-objective criteria and improving coordination mechanisms. The goal is to create optimal and feasible design solutions that consider factors such as assembly, manufacturing, cost, material selection, and economic sustainability.