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The article presents a comprehensive extension of the proprietary basic method for shaping innovative systems of corrugated shell roof structures by means of a specific complex material that comprises regular transformable shell units limited by spatial quadrangles. The units are made up of nominally plane folded sheets transformed into shell shapes. The similar shell units are regularly and effectively arranged in the three-dimensional space in an orderly manner with a universal regular reference surface, polyhedral network, and polygonal network. The extended method leads to the increase in the variety of the designed complex shell roof forms and plane-walled elevation forms of buildings. For this purpose, the rules governing the creation of the continuous roof shell structures of many shells arranged in different unconventional visually attractive patterns and their discontinuous regular modifications are sought. To obtain several novel groups of similar unconventional parametric roof forms, single division coefficients and double division coefficients are used. The easy and intuitive modifications of the positions of the vertices belonging to the polygonal network on the side edges of the polyhedral network accomplished by means of a parametric algorithm allow one to adjust the geometry of the complete shell units to the geometric and material constraints related to the orthotropic properties of the transformed sheeting by means of these coefficients. The innovative approach to the shaping of the diverse unconventional roof structures requires the solving of many interdisciplinary problems in the field of mathematics, civil engineering, construction, morphology, architecture, mechanics, computer visualization, and programming.
Jacek Abramczyk. Transformed Shell Structures Determined by Regular Networks as a Complex Material for Roofing. Materials 2021, 14, 3582 .
AMA StyleJacek Abramczyk. Transformed Shell Structures Determined by Regular Networks as a Complex Material for Roofing. Materials. 2021; 14 (13):3582.
Chicago/Turabian StyleJacek Abramczyk. 2021. "Transformed Shell Structures Determined by Regular Networks as a Complex Material for Roofing." Materials 14, no. 13: 3582.
This article is an insight into interdisciplinary topics in the field of civil engineering, morphology, architecture, mechanics, and computer programming. A novel method for shaping unconventional complex roofs in which regular folded units transformed into various shells are used as a complex substitute material is proposed. The original method’s algorithm for building systems of planes defining diversified polyhedral networks in the three-dimensional space by means of division coefficients of the subsequently determined vertices is presented. The algorithm is based on the proportions between the lengths of the edges of the reference network, the location and shape of the ruled shell units included in the designed complex roof structure, so it is intuitive. The shell units are made up of nominally flat folded sheets transformed effectively into shell forms whose static-strength properties are controlled by geometric quantities characteristic of ruled surfaces. The presented original approach to the shaping of the shell roof structures determining specific complex building forms allows us to go beyond the limitations related to the orthotropic structure of the folded roof sheeting and the shape transformations.
Jacek Abramczyk. Transformed Corrugated Shell Units Used as a Material Determining Unconventional Forms of Complex Building Structures. Materials 2021, 14, 2402 .
AMA StyleJacek Abramczyk. Transformed Corrugated Shell Units Used as a Material Determining Unconventional Forms of Complex Building Structures. Materials. 2021; 14 (9):2402.
Chicago/Turabian StyleJacek Abramczyk. 2021. "Transformed Corrugated Shell Units Used as a Material Determining Unconventional Forms of Complex Building Structures." Materials 14, no. 9: 2402.
This article provides a novel insight into specific properties of flat folded sheets transformed elastically into building roof shells. Elastic twist transformations of the sheets resulting from the arrangement of the sheets on two skew roof directrices cause changes in the geometric and mechanical sheet properties of the roof shell sheeting composed of these sheets. Regular smooth-ruled surfaces and their characteristic lines are used in the analysis of changes in the geometric properties. In the analysis of the mechanical changes, the constitutive relations and complex state of stresses are considered. The analysis is carried out on the basis of the results of the experimental tests and FEM computer simulations. They have led to the development of such a method of shaping of the effectively transformed folded covers that ensures the initial effort of each shell fold to be the smallest possible.
Jacek Abramczyk. Folded Sheets as a Universal Material for Shaping Transformed Shell Roofs. Materials 2021, 14, 2051 .
AMA StyleJacek Abramczyk. Folded Sheets as a Universal Material for Shaping Transformed Shell Roofs. Materials. 2021; 14 (8):2051.
Chicago/Turabian StyleJacek Abramczyk. 2021. "Folded Sheets as a Universal Material for Shaping Transformed Shell Roofs." Materials 14, no. 8: 2051.
The article is an original insight into interdisciplinary challenges of shaping innovative unconventional complex free form buildings roofed with multi-segment shell structures arranged with using novel parametric regular networks. The roof structures are made up of nominally plane thin-walled folded steel sheets transformed elastically and rationally into spatial shapes. A method is presented for creating such symmetric structures based on the regular spatial polyhedral networks created as a result of a composition of many complete reference tetrahedrons by their common flat sides and straight side edges arranged regularly and symmetrically in the three-dimensional Euclidean space. The use of the regularity and symmetry in the process of shaping different forms of (a) single tetrahedral meshes and whole consistent polyhedral structures, (b) individual plane walls and complex elevations, (c) single transformed folds, entire corrugated shell roofs, and their structures allow a creative search for attractive rational parametric solutions using a few author’s parametric algorithms and their implementation as built-in commands of the AutoCAD visual editor or applications of the Rhino/Grasshopper program.
Jacek Abramczyk. Symmetric Free Form Building Structures Arranged Regularly on Smooth Surfaces with Polyhedral Nets. Symmetry 2020, 12, 763 .
AMA StyleJacek Abramczyk. Symmetric Free Form Building Structures Arranged Regularly on Smooth Surfaces with Polyhedral Nets. Symmetry. 2020; 12 (5):763.
Chicago/Turabian StyleJacek Abramczyk. 2020. "Symmetric Free Form Building Structures Arranged Regularly on Smooth Surfaces with Polyhedral Nets." Symmetry 12, no. 5: 763.
The paper presents an innovative approach to solving interdisciplinary problems emerging in the design process of building free forms roofed with elastically transformed corrugated shells. The effectiveness and rationality of shaping such free forms and the creativeness in searching for the parametric forms require the application of their regular and symmetric models which have to be derived from the geometric and mechanical properties of the rationally transformed subsequent folds of these shells. Simplified smooth models used for engineering developments and accurate folded models implemented for scientific research have to be created by means of unconventional methods different from those presented in classical courses. Owing to the variety of the forms of the proposed innovative reference tetrahedrons and their parametric description, the algorithms developed by the authors have to be implemented in computer programs. The rationality of the transformed roof shells, revealed in the limitation of the level of the fold’s initial stresses resulting from the shape transformation, and the attractiveness of these forms are achieved by the axial symmetry and contraction of each shell fold at its half-length. The symmetries adopted in the process of modeling such roof shells are also exploited by the discussed new method to obtain coherent unconventional general forms of entire buildings.
Jacek Abramczyk; Aleksandra Prokopska. Symmetric Shape Transformations of Folded Shell Roofs Determining Creative and Rational Shaping of Building Free Forms. Symmetry 2019, 11, 1438 .
AMA StyleJacek Abramczyk, Aleksandra Prokopska. Symmetric Shape Transformations of Folded Shell Roofs Determining Creative and Rational Shaping of Building Free Forms. Symmetry. 2019; 11 (12):1438.
Chicago/Turabian StyleJacek Abramczyk; Aleksandra Prokopska. 2019. "Symmetric Shape Transformations of Folded Shell Roofs Determining Creative and Rational Shaping of Building Free Forms." Symmetry 11, no. 12: 1438.
The article concerns a parametric description of unconventional building forms roofed with folded sheeting transformed elastically into shells. The description supports the designer in the search for attractive forms and a rational use of materials. The adoption of strictly defined sets of initial parameters determines the diversification of the designed architectural free-forms. An impact of selected proportions between these parameters on these forms is illustrated by an example of a single structure. Folded elevations and a segmented shell roof make each such structure internally coherent and externally sensitive. The mutual position and proportions of the shape of all elements, such as the roof, eaves, and façades, along with regular patterns in the same structure, determine this consistency of its form and sensitivity to harmonious incorporation into the natural or built environments. The study is a new insight into shaping free-forms of buildings in which the modern and ecological materials determine the important shape and mechanical limitations of these forms. With a skillful approach, the materials allow their extensive use in buildings. However, various interdisciplinary problems related to architectural shaping of free-forms and static and strength work thin-walled shell sheeting roofs must be solved. For effective design it is necessary to use relevant software applications, where spatial reasoning is crucial for ordering the three-dimensional space by means of simplified engineering models.
Jacek Abramczyk; Aleksandra Prokopska. Parametric Creative Design of Building Free-forms Roofed with Transformed Shells Introducing Architect’s and Civil Engineer’s Responsible Artistic Concepts. Buildings 2019, 9, 58 .
AMA StyleJacek Abramczyk, Aleksandra Prokopska. Parametric Creative Design of Building Free-forms Roofed with Transformed Shells Introducing Architect’s and Civil Engineer’s Responsible Artistic Concepts. Buildings. 2019; 9 (3):58.
Chicago/Turabian StyleJacek Abramczyk; Aleksandra Prokopska. 2019. "Parametric Creative Design of Building Free-forms Roofed with Transformed Shells Introducing Architect’s and Civil Engineer’s Responsible Artistic Concepts." Buildings 9, no. 3: 58.
The article concerns the unconventional architectural forms of buildings roofed with transformed shells made up of thin-walled steel fold sheets, and a parametric description of how they are shaped. Complicated deformations of flanges and webs, as well as the complex static–strength work of the folds in a shell roof, demand the creation of simplified models regarding the parameterization of such shells and their integration with the general forms of the buildings. To obtain favorable results, it was necessary to write computer applications because of both the complicated problems related to the significant limitations of the transformations, as well as the great possibilities of shaping shell roofs by means of directrices of almost free shape and mutual position. The developed procedures enable the prediction of shapes and states of all the folds in the designed shell. They take account of two basic conditions related to these restrictions, which guarantee that the folds encounter little resistance when matching their transformed forms to the roof directrices, and that their initial effort was as low as possible. The developed procedures required solving a number of issues in the fields of architecture, civil engineering, and structures, and are illustrated with an example of shaping one unconventional architectural form. The interdisciplinary study explains a new insight into shaping such forms.
Aleksandra Prokopska; Jacek Abramczyk. Responsive Parametric Building Free Forms Determined by Their Elastically Transformed Steel Shell Roofs. Buildings 2019, 9, 46 .
AMA StyleAleksandra Prokopska, Jacek Abramczyk. Responsive Parametric Building Free Forms Determined by Their Elastically Transformed Steel Shell Roofs. Buildings. 2019; 9 (2):46.
Chicago/Turabian StyleAleksandra Prokopska; Jacek Abramczyk. 2019. "Responsive Parametric Building Free Forms Determined by Their Elastically Transformed Steel Shell Roofs." Buildings 9, no. 2: 46.