Sculpture Design Research Articles

Simulation of metal fatigue crack analysis based on thermal environment numerical analysis in street metal sculpture design process

With the popularity of urban public art, metal materials are easily affected by environmental factors in practical applications, especially the influence of thermal environment on metal fatigue, which often leads to cracks in sculptures, affecting their service life and safety. Through the numerical analysis of thermal environment, the fatigue crack generation mechanism of street metal sculpture in the process of use is deeply discussed in order to provide theoretical support and practical guidance for sculpture design. The finite element analysis method is used to simulate the stress distribution of metal sculpture under different thermal conditions. By setting a variety of conditions such as ambient temperature and humidity, the corresponding thermodynamic model is established, and the fatigue properties of metal materials are evaluated comprehensively The numerical model is calibrated with experimental data to improve the accuracy of the simulation. It is found that the change of thermal environment significantly affects the internal stress distribution of metal sculpture, and then affects the generation of fatigue cracks. At high temperature, the fatigue limit of the material is reduced, which leads to more cracks. Under the condition of sudden temperature change, the stress concentration of the material is more obvious, and the fatigue life of the metal is significantly shortened.

Augmented Classroom: A Case Study on Integrating XR and Ludification in Speculative Sculpture Design Workshop

Augmented Classroom: A Case Study on Integrating XR and Ludification in Speculative Sculpture Design Workshop

Peningkatan Estetika Kawasan Kampung Ketupat Samarinda Melalui Desain Sculpture

Kampung Ketupat, located in the District of Samarinda Seberang - Samarinda, has been a tourist destination since 2017. Kampung Ketupat is one of the old villages in Samarinda located along the Mahakam River, consisting of stilt houses made from ironwood. Many of its residents are artisans who make 'ketupat' (woven palm leaf pouches for rice) containers sold in Samarinda and the surrounding areas. As time passes, facilities such as sculptures in Kampung Ketupat gradually become obsolete both in terms of appearance and materials. Based on these problems, the Building Architecture Study Program - Samarinda State Polytechnic, through Community Service activities, provided a solution to the problem with the Kampung Ketupat sculpture design approach, which is more in line with the needs of the tourist area. The implementation method is direct observation in the field, the study of related literature, interviews with local community groups and communities, and design activities. The result of the activity is a complete working drawing that can be used as a reference in making new sculptures by the management of Kampung Ketupat. Apart from the sculpture's proportions being more monumental, the update includes a more modern and Instagrammable design form and lighting on several sides. The working drawings can be an important input for plans to improve the aesthetics of the Kampung Ketupat area.

Research on the Implementation Strategy of Integrating Sculpture Design into Contemporary Art and Design Education in Colleges and Universities

Research on the Implementation Strategy of Integrating Sculpture Design into Contemporary Art and Design Education in Colleges and Universities

Research on the artistic form and image expression effect of public sculpture based on intelligent and parametric design

With the modernization of cities, public sculptures are constantly being designed and constructed. The artistic form and image expression effect of sculpture based on intelligent and parametric design needs to be designed and developed to guide and assist the construction of sculpture. This paper applies the NAS architecture search method to explore the field of image expression effect models. Through the end-to-end search of the experiment designed in this paper, the separable convolution lightweight design is used, and the new model AestheticNet is used to predict the image form effect score distribution. Secondly, this paper proposes optimization strategies combining image expression effect theory and convolutional neural network, including improvement of Loss function self-weighted Loss, two-dimensional Attention mechanism – introduction of CBAM, and adaptive pooling layer. Optimization of several aspects, such as adaptive input. Finally, the validation set is compared with other existing image-morphological effect model algorithms, which proves the effectiveness of the customized search scheme. It demonstrates the efficacy of the AestheticNet model compared to other algorithms by validating its prediction of public sculpture image form effect ratings. The artistic form using intelligent and parametric design methodologies may improve. Image expression of sculptures may be enhanced by applying the image form effect model, which should be pervasive. We can use it to intelligently and parametrically guide the design and manufacture of sculptures.

Transformation of the artistic form and ideological content of the memorial complex in memory of the Sino-Japanese War in Beijing

The article is devoted to the problem of transformation of the imagery of the monumental sculpture ensemble created in memory of the Sino-Japanese War in Beijing. The construction of the memorial took place in two stages: the Memorial of the Chinese People's War of Resistance to Japanese Aggression was erected in the late 1980s, and a decade later the Sculpture Garden of the Memorial of the Chinese People against the Japanese War was laid. These elements of a single ensemble represent different options for using figurative-meaningful, compositional-spatial, artistic-stylistic and plastic features of monumental sculpture and interpreting its semantic role in such structures. Using the example of these memorials, it is possible to identify and trace the development strategy of memorials and their sculptural design, especially the dynamics of changes in the creation of an artistic image of sculptural groups. The author uses the method of art criticism to describe the visual and expressive features and the ideological content of the monumental sculpture of the memorial plan on the example of an analysis of the aesthetic qualities of two different elements of the ensemble in Beijing. This requires an analysis of the artistic structure and forms through which the authors express their ideological messages, as well as a comprehensive study of visual and expressive means. The object of attention in the article is the role and place of monumental sculpture in the development of historical memory and culture of China, and the subject is the options for the development of figurative and stylistic features of the art of sculpture in the context of the expansion and transformation of memorial complexes. Sculpture is considered as a reflection of the ideological and creative pursuits of Chinese sculptors of the late XX and early XXI centuries. The research material is a monumental sculpture as the most important artistic element of the memorial ensemble in memory of the Sino–Japanese War in Beijing, which allows for artistic comparisons, including with similar monuments on the territory of modern Russia. The article provides an opportunity to reveal the nuances of artistic, spatial and semantic interaction between the memorial and the sculpture garden.

Скульптор на распутье: урало-сибирское турне И.Д. Шадра (1918–1919)

The article attempts to reconstruct an underexplored episode of the artistic biography of the famous Russian sculptor I.D. Shadr — his lecture tour, which took place in 1918–1919 in Shadrinsk, Yekaterinburg, Omsk, and Tomsk. Separate parts of this tour were previously examined in the works of art historians, historians, culturologists and local historians, but it has not yet become the subject of a special scientific study. Shadr’s lectures touched upon a wide range of issues, including development paths of world and national cultures, artistic synthesis, art and religion. The lectures were supplemented by a demonstration of architectural and sculptural design of the Monument to the World’s Suffering. The article is based on the periodical press of the Urals and Siberian cities (Zauralsky krai, Gorny krai, Sibirskaya zhizn newspapers, etc.), including sources that are little‐known or just introduced into scientific circulation. The author of the article reveals the circumstances of Shadr’s tour and content of his lectures, analyses the response of the local audience, and researches into the artistic and socio‐political context of the tour. It is shown that Shadr, not least due to the success of his lectures, acquired the status of a famous sculptor and was able to get large commissions during his stay in White Omsk. Special attention is paid to the possible influence of Shadr’s ideas and his design of the Monument to the World’s Suffering on the architecture and monumental art of the Ural‐Siberian region in the 1920s. It has been suggested that echoes of Shadr’s concept can be found in some monuments and public buildings in the Ural and Siberian cities. The presented information sheds light on the dynamic and multifaceted activity of the sculptor in the extreme conditions of the Russian Civil War, filling in a number of gaps in his biography.

Application of Depth Convolution Virtual Reality (VR) in Traditional Sculpture Design under Digital Modeling

Virtual reality technology continues to be used in other technical fields, art forms are becoming more and more abundant. Virtual reality technology provides convenience for art creation. The combination of art and technology can become a new art form, digital art, and has become a trend of art development. The earliest sculpture art in the art field is no exception, and has also blended with the virtual reality technology. Because the artistic presentation of traditional sculpture art is a relatively complex materialization process, the thinking presentation and creation process of sculpture art need to go through a series of processes to complete the final sculpture works of art; This makes sculpture art more complex and more difficult to operate than other arts when using virtual reality technology. If virtual reality technology wants to integrate perfectly with sculpture art, it needs to combine the process of sculpture art and provide different digital technology methods in different links. This document uses linear combination to solve two level problems, which is a very effective adaptive algorithm. The empirical results show that the improved fusion algorithm can re analyze the importance of the positive process in the rapid development of virtual reality technology, and the rapid development of virtual reality technology is crucial to shaping the value of this theme. Compared with traditional methods, the accuracy of this experiment is increased by 13.4%, and compared with the algorithm TIN, the time complexity and space complexity are 97% and 54% lower respectively.

Design, Cultivation, and Acoustic Analysis of a Building-Sized Mycelium Sculpture

Abstract This paper describes novel computational design, simulation, and fabrication techniques employed in the production of a large sound-absorbing sculpture called Phoenix, made entirely from mycelium-composite materials (myco-materials). Myco-materials are composites made of lignocellulosic agricultural waste fibers bound by fungal mycelium and are produced at commercial scale as alternatives for plastics, insulation foam, or styrene. Mycelium composite materials have known acoustical properties that can be tuned according to variables such as growing time, substrate type, substrate size, and density. The fabrication method for producing the Phoenix sculpture revisits how we build performative and formal complexity in the most economic and sustainable way. The results indicate the potential for grown materials to be used in retrofit projects, allowing rooms to be customized in various acoustical situations, such as music or speech.

Based on 3D Virtual Reconstruction of Modern City Landscape Sculpture Planning Design

INTRODUCTION: With the continuous advancement of urbanization, urban landscape sculpture plays an increasingly important role in modern urban planning. Traditional planning and design methods make it challenging to demonstrate the three-dimensional sense and artistry of sculpture fully; therefore, this study explores a new method of planning and designing modern urban landscape sculpture based on three-dimensional virtual reconstruction.OBJECTIVES: This study aims to enhance the three-dimensional sense and artistry of urban landscape sculpture planning and design through three-dimensional virtual reconstruction technology to meet the needs of modern urban development better. By using advanced technical means, the planning and design can be made more intuitive and specific and provide urban residents with a more artistic public space.METHODS: The study adopts advanced three-dimensional virtual reconstruction technology, combined with urban planning and design theory, to plan and design modern urban landscape sculpture. Firstly, relevant literature on urban planning and sculpture design is collected to understand the existing design concepts and technical means. Secondly, a detailed virtual reconstruction of the sculpture is carried out by using three-dimensional modeling software to show the three-dimensional effect of the sculpture. Finally, the design scheme is optimized and improved through fieldwork and expert review.RESULTS: Through three-dimensional virtual reconstruction technology, this study successfully shows the whole picture of modern urban landscape sculpture. The design scheme not only has a three-dimensional sense but it has also been improved in artistry. The results of fieldwork and expert evaluation show that the new design scheme is more in line with the needs of urban development and adds a unique artistic atmosphere to the urban space.CONCLUSION: This study has achieved positive results in the field of modern urban landscape sculpture planning and design through 3D virtual reconstruction technology. The new design method not only provides a more specific tool for urban planners but also creates a more creative and artistic public space for urban residents. In the future, the application of this method in different urban contexts can be further explored and expanded to inject more innovation and vitality into urban planning and sculpture design.

Application of Relying on 3D Modeling Technology in the Design of Urban Sculpture

Application of Relying on 3D Modeling Technology in the Design of Urban Sculpture

Paradigm Shift for Green Space Planning in Tourism Towns: The Design of Interactive Sculpture

The planning of green spaces in tourism small towns emerges as a critical pathway to promote positive experiences of tourists and residents. This study proposes empirical research to explore the unique characteristics and methodologies of green space planning within such contexts, recognizing the importance of the design of interactive sculptures. The paper introduces a conceptual framework for urban tourism research that integrates a spatial scale with various thematic areas, suggesting a holistic ecological planning approach. This approach advocates for the coordinated development between human and natural systems to optimize overall benefits. Interactive sculptures enhance biodiversity conservation and ecological sustainability in tourism towns by raising environmental awareness, promoting sustainable practices, providing wildlife habitats, and boosting ecotourism. They integrate art with nature to celebrate local ecosystems and foster community involvement in conservation efforts.

Interactive experience of sculpture design based on virtual reality technology

Abstract The application of computer technology provides new ideas for the design of sculpture works. In this paper, with the support of virtual reality technology, the pixel set of each color block is extracted from the actual image to determine the location of the center point of the color block. Based on the extracted information, a visual color marking method is used to realize the 3D registration of the sculpture scene. In the virtual scene, through the virtual modeling of the sculpture work, a spline surface model was generated by applying sparse image sequences and optimally adjusted to transform the surface piece control point problem into a quadratic function of the network vertices. The mathematical logic properties of the virtual reality sculpture work wind direction improved by 22.5 points, the mathematical logic properties of the light design improved by 25.8 points, and the mathematical logic properties of the shadow design improved by 23.1 points. The virtual reality technology provides an interactive experience for the design of sculpture works.

Application of Computer Graphics and Machine Learning in Computer Aided Design of Digital Sculpture

Application of Computer Graphics and Machine Learning in Computer Aided Design of Digital Sculpture

Analysis of interaction experience of sculpture product design based on perceptual machine model

Abstract In this paper, the perceptual machine model is applied to analyze the interaction experience of sculpture product design to promote the innovative development of the cultural product design industry. In the design process, product information is passed layer by layer through a multilayer perceptual machine to adjust the magnitude of the weight vector values and obtain the optimal weight vector for sculpture product design. Using the perceptual machine training algorithm, the adjusted weights of the output layer network are calculated to clarify the value and status of perceptual factors in product design, thus proposing an interactive integration route for sculpture product design. A sculpture design product is used as an example to show the effect of the perceptual machine model on enhancing the interaction experience of the sculpture product design. The results show that the sculpture product is at level VI, the average weight of its frontal profile is e=0.46494, and the absolute value of the error between the modeling imagery result and the expected result is less than 0.1, which is within a reasonable error range. It can be seen that the perceptual machine model can transform the sculpture product design principles into user experience elements, which is conducive to the experiential development of sculpture product interaction design.

Retracted: Art Decoration Design of Electrochemical Silicon Oxide Ceramic Sculpture Based on 3D Printing Technology

Retracted: Art Decoration Design of Electrochemical Silicon Oxide Ceramic Sculpture Based on 3D Printing Technology

Retracted: Art Design of Ceramic Sculpture Based on 3D Printing Technology and Electrochemistry

Retracted: Art Design of Ceramic Sculpture Based on 3D Printing Technology and Electrochemistry

Parametric design tools and how to take advantage of it in 3D sculptural design

The design was distinguished in Late Twenty-First Century With new and new methods Through which the ability to adapt all technical media in the formation of two-dimensional and three-dimensional figures and shapes was achieved .Which led to the emergence of endless sets of design ideas characterized by the heterogeneity of design forms and design solutions that preceded it. The designer could not access these creations in various architectural and artistic fields only through computer programs, especially those related to the activation of mathematical logic and what is known as algorithms in the formation and construction of the form, which led to the emergence of the "parametric direction" and the problem of research is summarized in the extent of the influence of parametric on the design The research aims to shed light on the emergence of parameter to shed light on the concept of parameter and its tools the research takes the approach (descriptive and analytical) spatial boundaries of some countries of the world, for example, but not limited to since the appearance of parameter until now, and the researcher offered a formative reading of some objects Museum parametric sculpture and a formative reading of some parametric sculptural objects in the open air One of the results of the research is that the sculptor, through the use of parametric, is able to design works for display internally in facilities or externally in squares and gardens, and that the parametric artist has knowledge of the elements that must be taken into account when designing models for museum display or garden display and outdoors, and the researcher recommends the need to pay attention to contemporary techniques in the field of Arts and direct scientific research in the field of Arts in general and sculpture in particular to discuss recent developments and discoveries in the fields of design and implementation of models in different countries of the world.

Application of target-optimized image steganography algorithm for fine art sculpture design

Application of target-optimized image steganography algorithm for fine art sculpture design

CDA-based Parallel ADI Computing Algorithm of Three-Dimensional Structure Design of Contemporary Ceramic Sculpture

Computer-Aided Design and Applications is an international journal on the applications of CAD and CAM. It publishes papers in the general domain of CAD plus in emerging fields like bio-CAD, nano-CAD, soft-CAD, garment-CAD, PLM, PDM, CAD data mining, CAD and the internet, CAD education, genetic algorithms and CAD engines. The journal is aimed at all developers and users of CAD technology to ptovide CAD solutions for various stages of design and manufacturing. The journal publishes all about Computer-Aided Design and Computer-Aided technologies.