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Doctorate in Industrial Engineering from the Polytechnic University of Madrid, Spain. Has been University professor for more than 30 years. Has combined his academic activity at the University with his professional career in international engineering companies for several years. Has participated in several national and international research projects, the results of which are more than sixty international publications. He is currently involved in academic and research activity in the Master’s degree program of Design Engineering at the UNED.
This article presents the integration of lean 6S methodologies and hazard analysis and critical control points (HACCP) in the food production sector. Through the study, it is seen that non-food industrial production is not very different from that of food and, in many cases, it assimilates protocols and ideas that are already working in the food industry; Such is the case of risk analysis, critical control points or hygiene, which are part of the food production protocol and, increasingly, of the industry in general. After the integrative analysis, the article proposes a common lean 6S - HACCP model, which can be used both in food production and in non-food industrial production.
Rut Azucena Domínguez; María Del Mar Espinosa; Manuel Domínguez; Luis Romero. Lean 6S in Food Production. HACCP as a Benchmark for the Sixth S "Safety". 2021, 1 .
AMA StyleRut Azucena Domínguez, María Del Mar Espinosa, Manuel Domínguez, Luis Romero. Lean 6S in Food Production. HACCP as a Benchmark for the Sixth S "Safety". . 2021; ():1.
Chicago/Turabian StyleRut Azucena Domínguez; María Del Mar Espinosa; Manuel Domínguez; Luis Romero. 2021. "Lean 6S in Food Production. HACCP as a Benchmark for the Sixth S "Safety"." , no. : 1.
The latest advances in additive manufacturing have opened the door to the production of objects with irregular shapes or previously impossible to manufacture. In addition, the use of intelligent materials has been linked to these developments, capable of adopting programmed behaviors with minimal human interference. Below is a further step in this new paradigm, introducing natural geometric shapes taking advantage of the geometric freedom that this technology provides. This modeling together with the use of intelligent materials represents an approach to natural life, since it not only imitates form but also behavior. In this article, both the possible geometric design methodology is exposed, the intelligent materials that can be used through additive manufacturing, since until now not all of these materials available on the market can be used. Finally, the design procedures for manufacturing are presented, as well as the potential uses of this entire system, some of which are already being implemented.
Monica Miguelez Garcia; Manuel Dominguez Somonte. MODELING OF NATURAL ELEMENTS WITH SMART MATERIALS THROUGH ADDITIVE MANUFACTURING. DYNA 2021, 96, 30 -34.
AMA StyleMonica Miguelez Garcia, Manuel Dominguez Somonte. MODELING OF NATURAL ELEMENTS WITH SMART MATERIALS THROUGH ADDITIVE MANUFACTURING. DYNA. 2021; 96 (1):30-34.
Chicago/Turabian StyleMonica Miguelez Garcia; Manuel Dominguez Somonte. 2021. "MODELING OF NATURAL ELEMENTS WITH SMART MATERIALS THROUGH ADDITIVE MANUFACTURING." DYNA 96, no. 1: 30-34.
This study shows an assessment of binding techniques for parts produced by additive manufacturing (AM), specifically by fused deposition modelling (FDM). A deep search in various sources allows obtaining an updated picture of the different binding techniques for the assembly of FDM parts. The study focuses on FDM due to its wide use both at industrial and domestic levels. Although plastic parts are usually assembled using adhesives, welding or mechanical systems, the joining of AM parts needs special attention, starting at the design process of the part. The usual restrictions of AM parts makes necessary to split a big part into smaller ones, which will be later assembled together. The reduction of equipment costs and design limitations and their high flexibility have made that AM devices to experience an impressive growth recently, existing an urgent need both in the scientific and users’ community of methods for assembling AM parts. The use of smart materials is an innovative promising strategy to produce snap fits for easier disassembly processes. Keywords: additive manufacturing, 3D printing, fused deposition modeling, joining, design for assembly, smart materials
Luis Adargoma Suarez Garcia; Maria Del Mar Espinosa Escudero; Manuel Dominguez Somonte. ASSESSMENT OF ASSEMBLY PROCEDURES IN FUSED DEPOSITION MODELLING PARTS. DYNA 2021, 96, 39 -43.
AMA StyleLuis Adargoma Suarez Garcia, Maria Del Mar Espinosa Escudero, Manuel Dominguez Somonte. ASSESSMENT OF ASSEMBLY PROCEDURES IN FUSED DEPOSITION MODELLING PARTS. DYNA. 2021; 96 (1):39-43.
Chicago/Turabian StyleLuis Adargoma Suarez Garcia; Maria Del Mar Espinosa Escudero; Manuel Dominguez Somonte. 2021. "ASSESSMENT OF ASSEMBLY PROCEDURES IN FUSED DEPOSITION MODELLING PARTS." DYNA 96, no. 1: 39-43.
In this work, the application of the Lean 6S methodology is exposed, which includes the Safety-Security activity in response to the demands caused by the epidemiological situation due to exposure to SARS-CoV-2, as well as its implementation through a standardized process in n higher education environment in the engineering field. The application of methodologies based on lean principles in the organizational system of an educational institution, causes an impact on the demands of organizational efficiency, where innovation and continuous improvement mark the path to success. The Lean 6S methodology, based on the development of six phases, guarantees, thanks to the impact of all its phases and especially of three of them: cleaning, standardize and safety, the control of the health risk against SARS-CoV-2. This guarantee is achieved through the permanent review of safety in the workplace. The areas of selected implementation to verify the effect have been the essential spaces for the development of the teaching activity: center accesses, learning rooms and practical laboratories. The laboratories are adapted to the security and organization conditions that are required in the regulations required by the Occupational Risk Prevention Services against exposure to SARS-CoV-2, since the appropriate protective equipment for the risk level is reviewed, the ordering of the workstations, the class attendance through the shifts organization and the rearrangement of the common places where the maintenance of a minimum interpersonal safety distance between the teaching staff, auxiliary services and students is guaranteed. The effort of the teaching staff in terms of following the established rules is notably increased. To balance this dedication, it is necessary to increase and rely on auxiliary personnel who guarantee rules compliance control in different spaces than the classroom and the laboratory.
Mariano Jiménez; Luis Romero; Jon Fernández; María Del Mar Espinosa; Manuel Domínguez. Application of Lean 6s Methodology in an Engineering Education Environment during the SARS-CoV-2 Pandemic. International Journal of Environmental Research and Public Health 2020, 17, 9407 .
AMA StyleMariano Jiménez, Luis Romero, Jon Fernández, María Del Mar Espinosa, Manuel Domínguez. Application of Lean 6s Methodology in an Engineering Education Environment during the SARS-CoV-2 Pandemic. International Journal of Environmental Research and Public Health. 2020; 17 (24):9407.
Chicago/Turabian StyleMariano Jiménez; Luis Romero; Jon Fernández; María Del Mar Espinosa; Manuel Domínguez. 2020. "Application of Lean 6s Methodology in an Engineering Education Environment during the SARS-CoV-2 Pandemic." International Journal of Environmental Research and Public Health 17, no. 24: 9407.
This paper assesses existing tools for the use of sustainability concepts in the industrial design field, specially focusing on the needs of developinspecific tools for the sustainable design in Additive Manufacturing. A first reflexion about eco-design is shown, following with a deep study of eco-design methodologies and ending with a comparative assessment of different existing tools and their possibilities of use in the design of parts for 3D printing. The literature shows the great interest in this issue, as there are different studies comparing the environmental impact of some parts obtained by additive manufacturing compared to those produced by conventional technologies, although it has detected a lack in references establishing general considerations for designing more sustainable products by additive manufacturing, as part of the design process itself. Keywords: Eco-design, sustainability, additive manufacturing, 3D printing, life cycle analysis.
Luis Adargoma Suarez Garcia; Maria Del Mar Espinosa Escudero; Manuel Dominguez Somonte. SUSTAINABLE DESIGN IN 3D PRINTING: STATE OF THE ART. DYNA 2020, 95, 425 -429.
AMA StyleLuis Adargoma Suarez Garcia, Maria Del Mar Espinosa Escudero, Manuel Dominguez Somonte. SUSTAINABLE DESIGN IN 3D PRINTING: STATE OF THE ART. DYNA. 2020; 95 (1):425-429.
Chicago/Turabian StyleLuis Adargoma Suarez Garcia; Maria Del Mar Espinosa Escudero; Manuel Dominguez Somonte. 2020. "SUSTAINABLE DESIGN IN 3D PRINTING: STATE OF THE ART." DYNA 95, no. 1: 425-429.
We have compared the development expectations and the applications of additive manufacturing techniques and the current state of the art. We have gathered past researches about the applications of these techniques in different fields, and what were the expectations or new applications and we compared them with the current state of the art. Finally, we made an anylisis about which fields or which media bring the most unrealistic expectations to the public.
Niobe Alonso Benito; Manuel Dominguez Somonte; Maria Del Mar Espinosa Escudero. REALITY VERSUS EXPECTATIONS IN CURRENT 3D PRINT. DYNA 2020, 95, 128 -128.
AMA StyleNiobe Alonso Benito, Manuel Dominguez Somonte, Maria Del Mar Espinosa Escudero. REALITY VERSUS EXPECTATIONS IN CURRENT 3D PRINT. DYNA. 2020; 95 (1):128-128.
Chicago/Turabian StyleNiobe Alonso Benito; Manuel Dominguez Somonte; Maria Del Mar Espinosa Escudero. 2020. "REALITY VERSUS EXPECTATIONS IN CURRENT 3D PRINT." DYNA 95, no. 1: 128-128.
This paper proposes an expansion of the Lean 5S methodology, which includes the concept of Safety–Security as 6S. Implementation was done by a standardized process tested in a pilot area that is part of the Integrated Industrial Manufacturing System Laboratory at the Higher Technical School of Engineering (ICAI). The additional 6S phase (Safety-Security) thoroughly reviews all areas of an industrial plant by analyzing the risks at each workstation, which let employees be fitted out with protection resources depending on each of their personal characteristics and to guarantee the safety of the workstation by strictly complying with occupational safety and health and machinery use standards, which must hold a CE certificate of compliance. The main objective was to increase the scope of 5S methodology to respond to the occupational safety and health needs for machines required in optimizing production processes. It is important to remember that companies must guarantee that their employees use personal protection equipment (PPE) at their work posts or stations that protect them properly from risks to their health and safety and that cannot be prevented or sufficiently limited by using collective means of protection or by adopting work organization measures. The industrial resources employed in the pilot area chosen for 6S implementation were a sheet metal deformation and cutting line comprised of a punch press, feeder, and winder, as well as a conventional machine tool with minimum safety specifications and without CE certification. Until now, there had been no plans to implement a 6S tool in this laboratory. However, given that the existing safety risk to operators is high, the implementation has led to obtaining optimal results, which justify the success of the 6S methodology proposal. In short, it lets us advance towards the zero accident target.
Mariano Jiménez; Luis Romero; Jon Fernández; María Del Mar Espinosa; Manuel Domínguez. Extension of the Lean 5S Methodology to 6S with An Additional Layer to Ensure Occupational Safety and Health Levels. Sustainability 2019, 11, 3827 .
AMA StyleMariano Jiménez, Luis Romero, Jon Fernández, María Del Mar Espinosa, Manuel Domínguez. Extension of the Lean 5S Methodology to 6S with An Additional Layer to Ensure Occupational Safety and Health Levels. Sustainability. 2019; 11 (14):3827.
Chicago/Turabian StyleMariano Jiménez; Luis Romero; Jon Fernández; María Del Mar Espinosa; Manuel Domínguez. 2019. "Extension of the Lean 5S Methodology to 6S with An Additional Layer to Ensure Occupational Safety and Health Levels." Sustainability 11, no. 14: 3827.
Not only ETO (Engineering to Order), but even serial production industry should know how to deal with projects and their schedule: plant commissioning, shutdown, introducing new products and similar circumstances should be managed with adequate planning and resource allocation techniques to create a schedule useful in decision making during the execution. The current complex reality, with evolving technologies and fierce pressure to reach the market as soon as possible, pushes the project managers to use more advanced techniques than waterfall planning, such as agile or lean. It also requires them to take a holistic view and manage concurrent tasks in complex projects. The contributions of this paper are two: the proposal to control specific parallel groups of waterfall activities under uncertain environments, which can lead to iterations and reworks, as a single concurrent Activity Managed by Kanban Methods (AMKM). This activity can be subsequently embedded into traditional scheduling approaches as CPM-PERT. The second contribution is the feasibility of its application in industrial environments due to the affordability of simulation software. Two use cases are shown as evidence. It is not a disruptive proposal, but a kaizen action based on very mature technologies. Finally, it is suggested some improvements to be implemented in Project Management Software due to this ‘kaizen’ proposal.
Luis Villar-Fidalgo; María Del Mar Espinosa Escudero; Manuel Domínguez Somonte. Applying kaizen to the schedule in a concurrent environment. Production Planning & Control 2019, 30, 624 -638.
AMA StyleLuis Villar-Fidalgo, María Del Mar Espinosa Escudero, Manuel Domínguez Somonte. Applying kaizen to the schedule in a concurrent environment. Production Planning & Control. 2019; 30 (8):624-638.
Chicago/Turabian StyleLuis Villar-Fidalgo; María Del Mar Espinosa Escudero; Manuel Domínguez Somonte. 2019. "Applying kaizen to the schedule in a concurrent environment." Production Planning & Control 30, no. 8: 624-638.
Rebeca Vallecillo; Roberto Prádanos; Guillermo Núñez; Luis Romero; Manuel Domínguez; María Mar Espinosa. TRAINING DEFICIENCIES IN SECONDARY SCHOOL: CAUSES OF DEMOTIVATION AND PREMATURE ABANDONMENT OF UNIVERSITY STUDENTS. ICERI2018 Proceedings 2018, 9070 -9079.
AMA StyleRebeca Vallecillo, Roberto Prádanos, Guillermo Núñez, Luis Romero, Manuel Domínguez, María Mar Espinosa. TRAINING DEFICIENCIES IN SECONDARY SCHOOL: CAUSES OF DEMOTIVATION AND PREMATURE ABANDONMENT OF UNIVERSITY STUDENTS. ICERI2018 Proceedings. 2018; ():9070-9079.
Chicago/Turabian StyleRebeca Vallecillo; Roberto Prádanos; Guillermo Núñez; Luis Romero; Manuel Domínguez; María Mar Espinosa. 2018. "TRAINING DEFICIENCIES IN SECONDARY SCHOOL: CAUSES OF DEMOTIVATION AND PREMATURE ABANDONMENT OF UNIVERSITY STUDENTS." ICERI2018 Proceedings , no. : 9070-9079.
Information about the paper titled "CREATIVITY IN THE FORMATIVE CURRICULUM OF OUR INDUSTRIAL ENGINEERS" at IATED Digital Library
Alfonso Martín-Erro; María Mar Espinosa; Manuel Domínguez. CREATIVITY IN THE FORMATIVE CURRICULUM OF OUR INDUSTRIAL ENGINEERS. ICERI2018 Proceedings 2018, 8926 -8933.
AMA StyleAlfonso Martín-Erro, María Mar Espinosa, Manuel Domínguez. CREATIVITY IN THE FORMATIVE CURRICULUM OF OUR INDUSTRIAL ENGINEERS. ICERI2018 Proceedings. 2018; ():8926-8933.
Chicago/Turabian StyleAlfonso Martín-Erro; María Mar Espinosa; Manuel Domínguez. 2018. "CREATIVITY IN THE FORMATIVE CURRICULUM OF OUR INDUSTRIAL ENGINEERS." ICERI2018 Proceedings , no. : 8926-8933.
La aparición de la fabricación aditiva ha sido y es una de las grandes revoluciones industriales de las últimas décadas. Las diversas tecnologías de fabricación aditiva permiten la creación de piezas con formas muy complejas, muy difíciles de fabricar antaño, en las que además el desperdicio de material es prácticamente inexistente. La fabricación aditiva no solo sirve para la creación de maquetas, si no que se pueden crear piezas perfectamente funcionales, para ello, se suelen emplear materiales metálicos. Este artículo explora la evolución de las diferentes tecnologías de fabricación aditiva con materiales metálicos. Está dividido en cuatro secciones principales en las que se define la fabricación aditiva, se exponen los hitos más importantes de su reciente historia, se definen las tecnologías y materiales más característicos y se comentan los retos y las perspectivas de futuro de la misma.
Alexandra Balbás Calvo; María Del Mar Espinosa; Manuel Domínguez Somonte. Últimos avances en la fabricación aditiva con materiales metálicos. Lámpsakos 2018, 1, 47 -54.
AMA StyleAlexandra Balbás Calvo, María Del Mar Espinosa, Manuel Domínguez Somonte. Últimos avances en la fabricación aditiva con materiales metálicos. Lámpsakos. 2018; 1 (19):47-54.
Chicago/Turabian StyleAlexandra Balbás Calvo; María Del Mar Espinosa; Manuel Domínguez Somonte. 2018. "Últimos avances en la fabricación aditiva con materiales metálicos." Lámpsakos 1, no. 19: 47-54.
Highlights•The state of the art in welfare-oriented and housekeeping robots are analyzed.•Customer requirements for welfare-oriented and housekeeping robots are analyzed.•Customer needs are transferred to a design features for reaching large masses.•Definition of priorities and design inputs for housekeeping robots.•List of design features for welfare-oriented robots for care of elderly with dementia. AbstractThe aim of this study is the analisys of the state of the art in consumer robotics dedicated to personal care and housekeeping, for further critical analysis of it. After interviewing different users we will follow a methodology to find the voice of the customer. From these interviews we get the customer’s needs which will be structured and ordered in a hierarchy that will help us to set the priorities, concluding with the design requirements and the basic features that the robot must have.
Rafael Mateo Ferrús; Manuel Domínguez Somonte. Design in robotics based in the voice of the customer of household robots. Robotics and Autonomous Systems 2016, 79, 99 -107.
AMA StyleRafael Mateo Ferrús, Manuel Domínguez Somonte. Design in robotics based in the voice of the customer of household robots. Robotics and Autonomous Systems. 2016; 79 ():99-107.
Chicago/Turabian StyleRafael Mateo Ferrús; Manuel Domínguez Somonte. 2016. "Design in robotics based in the voice of the customer of household robots." Robotics and Autonomous Systems 79, no. : 99-107.
This study proposes the replacement of all the physical devices used in the manufacturing of conventional prostheses through the use of digital tools, such as 3D scanners, CAD design software, 3D implants files, rapid prototyping machines or reverse engineering software, in order to develop laboratory work models from which to finish coatings for dental prostheses. Different types of dental prosthetic structures are used, which were adjusted by a non-rotatory threaded fixing system. From a digital process, the relative positions of dental implants, soft tissue and adjacent teeth of edentulous or partially edentulous patients has been captured, and a maser working model which accurately replicates data relating to the patients oral cavity has been through treatment of three-dimensional digital data. Compared with the conventional master cast, the results show a significant cost savings in attachments, as well as an increase in the quality of reproduction and accuracy of the master cast, with the consequent reduction in the number of patient consultation visits. The combination of software and hardware three-dimensional tools allows the optimization of the planning of dental implant-supported rehabilitations protocol, improving the predictability of clinical treatments and the production cost savings of master casts for restorations upon implants.
Luis Romero; Mariano Jimenez; María Del Mar Espinosa; Manuel Domínguez. New Design for Rapid Prototyping of Digital Master Casts for Multiple Dental Implant Restorations. PLOS ONE 2015, 10, e0145253 .
AMA StyleLuis Romero, Mariano Jimenez, María Del Mar Espinosa, Manuel Domínguez. New Design for Rapid Prototyping of Digital Master Casts for Multiple Dental Implant Restorations. PLOS ONE. 2015; 10 (12):e0145253.
Chicago/Turabian StyleLuis Romero; Mariano Jimenez; María Del Mar Espinosa; Manuel Domínguez. 2015. "New Design for Rapid Prototyping of Digital Master Casts for Multiple Dental Implant Restorations." PLOS ONE 10, no. 12: e0145253.
Would it be possible for an additively manufactured impeller of fused deposition modeling (FDM) technology to have a functional behavior and a similar performance to that of the original impeller of a close-coupled centrifugal pump? In this research paper, different tests are conducted to answer this question and to evaluate the manufacturing process of FDM functional parts. Three performance experiments with the same centrifugal pump, using an open test rig, are carried out and compared, first using the original impeller provided by the manufacturer of the pump, second using an FDM replication of the original one without post-treatment, and third using a chemically dimethyl ketone post-treated FDM replication. The results obtained in the tests demonstrate the functional behavior of both additive FDM impellers in comparison with the one fabricated by means of conventional technology (subtractive manufacturing). Additionally, analogous head-flow curves (and also with an improved performance to the one of the original impeller) are obtained. This research paper introduces significant information concerning a low-cost and low-time manufacturing process of additive functional parts. Moreover, new results are presented regarding the performance of chemically post-treated FDM parts working in functional applications. FDM impellers of high complexity and quality, which meet performance criteria, can be achieved.
Silvia Fernández; M. Jiménez; J. Porras; Luis Romero; M. M. Espinosa; Manuel Domínguez. Additive Manufacturing and Performance of Functional Hydraulic Pump Impellers in Fused Deposition Modeling Technology. Journal of Mechanical Design 2015, 138, 024501 .
AMA StyleSilvia Fernández, M. Jiménez, J. Porras, Luis Romero, M. M. Espinosa, Manuel Domínguez. Additive Manufacturing and Performance of Functional Hydraulic Pump Impellers in Fused Deposition Modeling Technology. Journal of Mechanical Design. 2015; 138 (2):024501.
Chicago/Turabian StyleSilvia Fernández; M. Jiménez; J. Porras; Luis Romero; M. M. Espinosa; Manuel Domínguez. 2015. "Additive Manufacturing and Performance of Functional Hydraulic Pump Impellers in Fused Deposition Modeling Technology." Journal of Mechanical Design 138, no. 2: 024501.
Mariano Jiménez; Luis Romero; Manuel Domínguez; María Del Mar Espinosa. 5S methodology implementation in the laboratories of an industrial engineering university school. Safety Science 2015, 78, 163 -172.
AMA StyleMariano Jiménez, Luis Romero, Manuel Domínguez, María Del Mar Espinosa. 5S methodology implementation in the laboratories of an industrial engineering university school. Safety Science. 2015; 78 ():163-172.
Chicago/Turabian StyleMariano Jiménez; Luis Romero; Manuel Domínguez; María Del Mar Espinosa. 2015. "5S methodology implementation in the laboratories of an industrial engineering university school." Safety Science 78, no. : 163-172.
Ma Luisa Morales Jimenez; Luis Romero; Manuel Domínguez; María Del Mar Espinosa. Rapid prototyping model for the manufacturing by thermoforming of occlusal splints. Rapid Prototyping Journal 2015, 21, 56 -69.
AMA StyleMa Luisa Morales Jimenez, Luis Romero, Manuel Domínguez, María Del Mar Espinosa. Rapid prototyping model for the manufacturing by thermoforming of occlusal splints. Rapid Prototyping Journal. 2015; 21 (1):56-69.
Chicago/Turabian StyleMa Luisa Morales Jimenez; Luis Romero; Manuel Domínguez; María Del Mar Espinosa. 2015. "Rapid prototyping model for the manufacturing by thermoforming of occlusal splints." Rapid Prototyping Journal 21, no. 1: 56-69.
RepRap Community was founded by Adrian Bowyer at the University of Bath in 2004. This initiative has promoted designs of several low cost open source 3D printers, and has proven very successful. RepRap printers’ firmware is based on 8 bits microcomputers, and an external computer is needed to process 3D models and send it to printers (by USB or SD card). We have built a RepRap variant (RepRap Azara) that doesńt need external computer, using a 32 bit ARM microcomputer (Beaglebone) and developing software and firmware able to process 3D models and to communicate through a web interface, all of it in the same costs’ range.
A. Guerrero-De-Mier; M.M. Espinosa; Manuel Domínguez. Azara: A New 32 bit RepRap with Improved Performance. Procedia Engineering 2015, 132, 118 -125.
AMA StyleA. Guerrero-De-Mier, M.M. Espinosa, Manuel Domínguez. Azara: A New 32 bit RepRap with Improved Performance. Procedia Engineering. 2015; 132 ():118-125.
Chicago/Turabian StyleA. Guerrero-De-Mier; M.M. Espinosa; Manuel Domínguez. 2015. "Azara: A New 32 bit RepRap with Improved Performance." Procedia Engineering 132, no. : 118-125.
Fused Deposition Modeling (FDM) is the most used 3D printing technology. In this technology, 3D pieces are built warming and extruding thermoplastic through a nozzle. When the thermoplastic gets cold, internal stresses may generate deformations, mainly in corners. In this paper we describe a method for reduce these deformations (called warping), splitting pieces in hexagonal or squared bricks spatially locked. We have developed and tested an application that calculates the necessary GCODE to build the bricking piece directly, and we have measured a significant reduction in warp deformations.
A. Guerrero-De-Mier; María Del Mar Espinosa; Manuel Domínguez. Bricking: A New Slicing Method to Reduce Warping. Procedia Engineering 2015, 132, 126 -131.
AMA StyleA. Guerrero-De-Mier, María Del Mar Espinosa, Manuel Domínguez. Bricking: A New Slicing Method to Reduce Warping. Procedia Engineering. 2015; 132 ():126-131.
Chicago/Turabian StyleA. Guerrero-De-Mier; María Del Mar Espinosa; Manuel Domínguez. 2015. "Bricking: A New Slicing Method to Reduce Warping." Procedia Engineering 132, no. : 126-131.
I.A Domínguez; Luis Romero; M.M Espinosa; M Dominguez. Impresión 3D de maquetas y prototipos en arquitectura y construcción. Revista de la construcción 2013, 12, 39 -53.
AMA StyleI.A Domínguez, Luis Romero, M.M Espinosa, M Dominguez. Impresión 3D de maquetas y prototipos en arquitectura y construcción. Revista de la construcción. 2013; 12 (2):39-53.
Chicago/Turabian StyleI.A Domínguez; Luis Romero; M.M Espinosa; M Dominguez. 2013. "Impresión 3D de maquetas y prototipos en arquitectura y construcción." Revista de la construcción 12, no. 2: 39-53.