Assoc.Prof. at Shahid Rajaee Teacher Training University , Iran.

Nasrollah Bani Mostafa Arab is an esteemed Associate Professor at the Faculty of Mechanical Engineering, Shahid Rajaee Teacher Training University, Tehran, Iran 📚. With over 30 years of teaching experience and a strong research background in welding processes, manufacturing processes, and composite materials, he has established himself as a leading expert in his field 🔩.

Professional Profile

scholar

🎓 Education

– *PhD in Mechanical Engineering*: IIT Delhi, India (1993) 🎓– M.Tech. in Mechanical Engineering (Production): B.H.U., India (1988) 🎓– B.E. in Mechanical Engineering: R.E.C., Srinagar, India (1985) 🎓

💼 Experience

– *Associate Professor*: Faculty of Mechanical Engineering, Shahid Rajaee Teacher Training University, Tehran, Iran 📚– *Teaching Experience*: Over 30 years of experience in teaching mechanical engineering courses 📚– *Research Experience*: Extensive research experience in welding processes, manufacturing processes, and composite materials

🔬 Research Interests

Nasrollah Bani Mostafa Arab’s research focuses on welding processes, manufacturing processes, and composite materials 🔩. His work involves investigating the properties and applications of various materials and developing new manufacturing techniques.

🏅 Awards

– *Published over 60 journal and conference papers*: Demonstrating his expertise and contributions to the field of mechanical engineering 📄– *Translated book*: “Advanced machining processes” from English to Persian 📚– *Authored book*: “Technical English for students of production and manufactur

📚Top Noted Publications

1. Effects of friction stir welding process parameters on appearance and strength of polypropylene composite welds 📄
GH Payganeh, NBM Arab, YD Asl, FA Ghasemi, MS Boroujeni
Int. J. Phys. Sci 6 (19), 4595-4601, 2011

2. Optimization of process parameters for friction stir lap welding of carbon fibre reinforced thermoplastic composites by Taguchi method 📊
H Ahmadi, NB Mostafa Arab, FA Ghasemi
Journal of Mechanical Science and Technology 28, 279-284, 2014

3. Optimization of welding parameters for weld penetration in FCAW 🔩
NB Mostafa, MN Khajavi
Journal of achievements in materials and manufacturing engineering 16 (1-2), 2006

4. Influence of pin profile on quality of friction stir lap welds in carbon fiber reinforced polypropylene composite 🔍
H Ahmadi, NBM Arab, FA Ghasemi, RE Farsani
International Journal of Mechanics and Applications 2 (3), 24-28, 2012

5. Effects of drilling parameters on delamination of glass-epoxy composites 🌀
FA Ghasemi, A Hyvadi, G Payganeh, NBM Arab
Australian Journal of Basic and Applied Sciences 5 (12), 1433-1440, 2011

6. Mechanical and metallurgical properties of pulsed neodymium-doped yttrium aluminum garnet laser welding of dual phase steels 🔩
M Hazratinezhad, NBM Arab, AR Sufizadeh, MJ Torkamany
Materials & Design 33, 83-87, 2012

7. The systematic parameter optimization in the Nd: YAG laser beam welding of Inconel 625 🔍
MR Jelokhani-Niaraki, N B. Mostafa Arab, H Naffakh-Moosavy, …
The International Journal of Advanced Manufacturing Technology 84, 2537-2546, 2016

8. Application of response surface methodology for weld strength prediction in laser welding of polypropylene/clay nanocomposite 📊
MR Nakhaei, NB Mostafa Arab, G Naderi
Iranian Polymer Journal 22, 351-360, 2013

9. Numerical and experimental investigation of defects formation during friction stir processing on AZ91 🔍
H Agha Amini Fashami, N Bani Mostafa Arab, M Hoseinpour Gollo, …
SN Applied Sciences 3, 1-13, 2021

10. Experimental study on optimization of CO2 laser welding parameters for polypropylene-clay nanocomposite welds 🔩
MR Nakhaei, NB Mostafa Arab, G Naderi, M Hoseinpour Gollo
Journal of Mechanical Science and Technology 27, 843-848, 2013

Conclusion

Dr. Nasrollah Bani Mostafa Arab’s research experience, publication record, teaching experience, and book publications make him a strong candidate for the Best Researcher Award. With some further emphasis on international collaboration and interdisciplinary research, Dr. Arab could further solidify his position as a leading researcher in his field.

Dr. Edward Reutzel | Additive Manufacturing Process Planning | Best Researcher Award

Published on 28/05/202528/05/2025 by Global Mechanics Awards

Dr. Edward Reutzel | Additive Manufacturing Process Planning | Best Researcher Award

Research Professor, Penn State University, Applied Research Laboratory, United States

Edward W. (Ted) Reutzel is a renowned expert in additive manufacturing and materials processing. As the Director of the Center for Innovative Material Processing thru Direct Digital Deposition at Pennsylvania State University, Reutzel leads cutting-edge research in additive manufacturing. With a strong background in mechanical engineering, Reutzel has made significant contributions to the development of innovative materials processing techniques. Their research has far-reaching implications for industries such as aerospace, healthcare, and energy.

Profile

Orcid

🎓 Education

Reutzel holds a Ph.D. in Mechanical Engineering from Pennsylvania State University (2007), an M.S. in Mechanical Engineering from the Georgia Institute of Technology (1993), and a B.S. in Mechanical Engineering from Pennsylvania State University (1991). Their educational background has provided a solid foundation in mechanical engineering principles and prepared them for a career in research and development.

👨‍🔬 Experience

Reutzel has held various positions, including Director of the Center for Innovative Material Processing thru Direct Digital Deposition, Associate Research Professor at ARL Penn State, and Graduate Faculty in the Mechanical Engineering Department and Additive Manufacturing and Design Program at Penn State. With over two decades of experience in research and development, Reutzel has demonstrated expertise in additive manufacturing, materials processing, and laser systems engineering.

🔍 Research Interest

Reutzel’s research focuses on additive manufacturing, materials processing, and laser systems engineering. Their work explores innovative techniques for direct digital deposition, process monitoring, and defect detection in additive manufacturing. With applications in industries such as aerospace and healthcare, Reutzel’s research has the potential to transform manufacturing processes and improve product quality.

Awards and Honors 🏆

Although specific awards and honors are not detailed in the provided information, Reutzel’s research achievements and leadership roles suggest a high level of recognition within the field of additive manufacturing. Their certification and involvement in various research projects demonstrate a commitment to excellence and a strong reputation among peers.

📚 Publications

1. Automated defect recognition for additive manufactured parts using machine perception and visual saliency 🤖
2. IN SITU LASER ULTRASOUND-BASED RAYLEIGH WAVE PROCESS MONITORING OF DED-AM METALS 💡
3. Multi-spectral method for detection of anomalies during powder bed fusion additive manufacturing 🔍
4. Effect of interlayer temperature on meltpool morphology in laser powder bed fusion 🔥
5. Multi-modal sensor fusion with machine learning for data-driven process monitoring for additive manufacturing 📊
6. Electro-strengthening of the additively manufactured Ti–6Al–4V alloy 💪
7. Effect of processing conditions on the microstructure, porosity, and mechanical properties of Ti-6Al-4V repair fabricated by directed energy deposition 🔩
8. Formation processes for large ejecta and interactions with melt pool formation in powder bed fusion additive manufacturing 🌐
9. Multi-sensor investigations of optical emissions and their relations to directed energy deposition processes and quality 🔎
10. Design and evaluation of an additively manufactured aircraft heat exchanger ❄️

Conclusion

Edward W. (Ted) Reutzel is an outstanding researcher with a strong background in additive manufacturing and mechanical engineering. Their extensive research experience, leadership roles, and prolific publication record make them an excellent candidate for the Best Researcher Award. While there are areas for improvement, Reutzel’s research achievements and potential for future impact make them a compelling candidate for this award.

Simon Yishak | Manufacturing Engineering | Academic Excellence in Mechanics Award

Published on 25/01/202525/01/2025 by Global Mechanics Awards

Mr. Simon Yishak | Manufacturing Engineering | Academic Excellence in Mechanics Award

Lecturer at Arba Minch University, Ethiopia

🌟 Simon Yishak Kolebaye is a passionate academic leader serving as a lecturer and Head of the Automotive Engineering Department at Arba Minch University, Ethiopia, since 2016. 🎓 He earned his BSc in Mechanical Engineering from Mizan Tepi University and an MSc in Manufacturing Engineering and Automation from Arba Minch University. 🛠️ With nine years of professional experience, Simon focuses on bridging academia and industry through innovative research, community engagement, and industry-technology transfer. 🚀 His expertise in advanced manufacturing and process optimization reflects his commitment to Ethiopia’s technological growth. 🌍

Publication Profile

scopus

Education🎓

MSc in Manufacturing Engineering and Automation (2021) – Arba Minch University BSc in Mechanical Engineering, Manufacturing Stream (2015) – Mizan Tepi University Specialized in advanced manufacturing, CNC technology, additive manufacturing, process planning, welding machines, and automation. 🤖 His academic training integrates engineering principles with cutting-edge technologies to enhance manufacturing systems. 🚀

Experience 📌

Head of Automotive Engineering Department at Arba Minch University (2016–present) Led department operations, curriculum development, and student mentorship. Coordinated research projects bridging academic solutions with industry needs. Actively engaged in teaching advanced manufacturing technologies, workshop technology, and process optimization. Contributed to community-focused projects, enhancing education and safety in Ethiopia.

Awards and Honors 🏆

Recognized for exceptional leadership in academic program management. Received grants for innovative research projects funded by Arba Minch University. Honored for community service initiatives improving local education and infrastructure. Acknowledged for excellence in publishing impactful research in advanced manufacturing.

Research Focus 🔬

Focused on additive manufacturing and process optimization for energy storage, graphene composites, and pipeline applications. Specialized in thermoplastic infill patterns, laser scanning for nickel alloys, and biocomposites. Worked on sustainability, utilizing waste-derived materials for manufacturing innovations. Published studies on CNC automation, rapid prototyping, and advanced manufacturing systems. Dedicated to developing scalable, eco-friendly, and cost-effective manufacturing solutions.

Publications 📖

1. Additive Manufacturing (3D Printing)

Graphene Enhanced PETG Optimization:

Title: Fused deposition modeling process parameter optimization on the development of graphene enhanced polyethylene terephthalate glycol

Journal: Scientific Reports (2024, 14(1), 30744)

Focus: Optimizing parameters for FDM using graphene-reinforced PETG.

Citations: 0

Graphene-Reinforced PETG Impeller Production:

Title: Optimizing additive manufacturing parameters for graphene-reinforced PETG impeller production: A fuzzy AHP-TOPSIS approach

Journal: Results in Engineering (2024, 24, 103018)

Focus: Application of multi-criteria decision-making tools for PETG optimization.

Citations: 4

Thermoplastic Polyurethane for Pipeline Applications:

Title: Analysis and Optimization of Thermoplastic Polyurethane Infill Patterns for Additive Manufacturing in Pipeline Applications

Journal: Advances in Polymer Technology (2024)

Focus: Infill pattern optimization in AM applications.

Citations: 0

2. Laser Manufacturing

Nickel-Based Superalloys:

Title: Role of laser power and scan speed combination on the surface quality of additive manufactured nickel-based superalloy

Journal: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications (2024, 238(6), pp. 1142–1154)

Focus: Investigates laser parameters on the surface quality of nickel alloys.

Citations: 13

3. Composites and Biocomposites

Biocomposites of Jute/Bagasse/Coir/Nano TiO2:

Title: An Investigation on the Activation Energy and Thermal Degradation of Biocomposites of Jute/Bagasse/Coir/Nano TiO2/Epoxy-Reinforced Polyaramid Fibers

Journal: Journal of Nanomaterials (2022)

Focus: Studied thermal degradation of sustainable biocomposites.

Citations: 33

Conclusion

Mr. Simon Yishak demonstrates exceptional qualifications and expertise that align closely with the goals of the Research for Academic Excellence in Mechanics Award. His academic rigor, innovative research, and practical contributions to manufacturing engineering position him as a strong candidate for this prestigious recognition. By focusing on international collaborations, patent development, and expanding his research into emerging fields, Simon could further solidify his candidacy and amplify his contributions to the discipline.

Amirali Milani | Additive Manufacturing | Best Researcher Award

Published on 20/12/202420/12/2024 by Global Mechanics Awards

Mr. Amirali Milani | Additive Manufacturing | Best Researcher Award

Additive Manufacturing Lab Researcher at Tarbiat Modares University, China

🎓 Amirali Milani is an Iranian mechanical engineer specializing in manufacturing and biomedical engineering. He has a rich academic background with an M.Sc. from Tarbiat Modares University and a B.Sc. from Babol Noshirvani University of Technology. With professional experience in 3D printing and medical device quality control, Amirali has a passion for innovation in engineering and research. He has contributed to impactful publications and strives to integrate engineering principles with biomedical applications.

Professional Profiles:

orcid

Education🎓

M.Sc. Mechanical Engineering – Manufacturing, Tarbiat Modares University (2020-2024). Supervised by Prof. Amir H. Behravesh & Prof. Ghaus Rizvi. B.Sc. Mechanical Engineering – Manufacturing, Babol Noshirvani University of Technology (2015-2020). Supervised by Prof. Mohammad Bakhshi-Jooybari.

Experience🔬

Biomedical Engineering Team Supervision (2023–Present): Oversaw regulatory compliance for medical devices at Ayria Daroo Plasma. Mechanical Design Engineer (2023): Redesigned commercial 3D printers and debugged firmware at Ayhan AM Co. Internship (2019): Evaluated the corrosion and mechanical behavior of Inconel 625 at Niroo Research Institute.

Awards and Honors🏆

Best Researcher Award, CEE Awards (2024). Elsevier Publication – “Optimization of 3D-Printing Reinforced Concrete Beams” (2024). Research under review with Nature Portfolio’s Scientific Reports.Recognized for advancing 3D printing and reinforced materials research.

Research Focus⚙️

3D printing optimization of reinforced concrete beams. Fiber-reinforced silica-fume cemented materials’ mechanical properties Corrosion behavior of metal additive manufacturing in extreme environments. Application of CAD/CAE and data analysis for manufacturing innovation Integration of engineering practices in biomedical equipment design.

✍️Publications Top Note :

Optimization of 3D-printed reinforced concrete beams with four types of reinforced patterns and different distances

Conclusion

Amirali Milani’s academic achievements, impactful publications, and professional expertise position him as a strong candidate for the Best Researcher Award. His work in additive manufacturing, medical device engineering, and material science showcases innovation and practical application. By diversifying his research focus and engaging more extensively in global academic initiatives, he can further solidify his reputation as a leading researcher.

Jingfei Yin | high performance machining | Best Researcher Award

Published on 29/08/202429/08/2024 by Global Mechanics Awards

Assoc Prof Dr. Jingfei Yin | high performance machining | Best Researcher Award

Assoc Dr. Nanjing university of Aeronautics and Astronautics, china

Dr. Jingfei Yin is an Associate Professor at Nanjing University of Aeronautics and Astronautics with a Ph.D. from Dalian University of Technology. His research focuses on high-efficiency and precision machining of hard-to-machine materials, high-speed machining, and laser detection of subsurface damage. He has led or participated in over 10 national and provincial projects, published more than 20 academic papers, holds six patents, and has over 10 patents in progress. Dr. Yin is an editorial member of several high-impact journals and a senior member of the Chinese Mechanical Engineering Society. He is recognized for his pioneering work in ultrasonic-assisted drilling and subsurface damage detection.

Professional Profiles:

Scopus

🎓 Academic and Professional Background

Dr. Jingfei Yin earned his PhD from Dalian University of Technology, under the supervision of Prof. Bi Zhang (CIRP Fellow). Currently, he serves as an Associate Professor at Nanjing University of Aeronautics and Astronautics. His research spans high-efficiency and precision machining of hard-to-machine materials, high-speed machining, and laser detection of subsurface damage. He has led or contributed to over 10 national and provincial projects, including those funded by the National Natural Science Foundation and the National Sci. & Tech. Major Project. Dr. Yin has published over 20 academic papers and is an invited reviewer for several high-level journals.

🚀 Research and Innovations:

🛠 Completed/Ongoing Research Projects:Completed three projects funded by the China Postdoctoral Foundation and Jiangsu Province Postdoctoral Foundation.Currently managing five ongoing projects from the National Natural Science Foundation of China, The Science Center for Gas Turbine, and Nanjing University of Aeronautics and Astronautics.📊 Citation Index: 12🏗 Consultancy/Industry Projects: Two industry projects.📚 Books Published (ISBN): None.🔑 Patents Published/Under Process:Published six patents with more than 10 patents under process.📝 Journals Published (SCI, Scopus, etc.): Over 20 articles.

📰 Editorial Appointments:

Early editorial member of the International Journal of Hydromechatronics (JIF: 5.3), Nanotechnology and Precision Engineering (JIF: 3.5), and two other Chinese journals (SCIE indexed).

🎓 Professional Memberships:

Senior member of the Chinese Mechanical Engineering Society and a member of the Chinese Society of Aeronautics and Astronautics.

🔬 Areas of Research:

High-efficiency and precision machining of hard-to-machine materials, high-speed machining, and laser detection of subsurface damage.

🌟 Contributions

Pioneered the mechanical machining of high-frequency ultrasonic-assisted drilling, making submillimeter holes in superhard ceramic matrix composites. Efficiency is elevated up to 10 times compared to current laser machining.Discovered the “skin effect” of subsurface damage distribution in materials subjected to high-speed machining, where damage depth decreases with increasing machining speed.Developed a novel non-destructive method of polarized laser scattering for detecting subsurface damage in materials with a sensitivity as high as 0.1 μm in depth, using electromagnetic scattering theory to clarify the interaction between laser polarization and subsurface damages.

✍️ Self-Declaration:

I authenticate that to the best of my knowledge, the information given in this form is correct and complete. If at any time, I am found to have concealed any material information, my application shall be liable to be summarily terminated without notice. I have read the terms and conditions and other policies of the Awards and agree to them.

Dr. Jingfei Yin’s Research for the Best Researcher Award

Strengths for the Award:

Innovative Research Contributions: Dr. Jingfei Yin has made significant contributions to the field of precision machining, particularly in the high-efficiency machining of hard-to-machine materials. His work on high-frequency ultrasonic-assisted drilling, which improves the efficiency of creating submillimeter holes in ceramic matrix composites by tenfold compared to current laser machining methods, is groundbreaking. This demonstrates his ability to push the boundaries of existing technologies.
Expertise in Subsurface Damage Detection: Dr. Yin’s research on the “skin effect” of subsurface damage distribution in high-speed machining and the interaction between laser polarization and subsurface damage highlights his deep understanding of the intricate processes involved in machining. His development of a novel non-destructive method for detecting subsurface damage with high sensitivity is a testament to his innovative approach to solving complex problems in material science.
Leadership in National and Provincial Projects: Dr. Yin has successfully led and participated in more than ten national and provincial research projects, including those funded by the National Natural Science Foundation and the National Science & Technology Major Project. His leadership in these projects underlines his capability to manage large-scale research initiatives and contribute valuable insights to the field.
Scholarly Contributions: With over 20 academic papers published in reputable journals and six patents already published, Dr. Yin’s scholarly output is commendable. His work is recognized and cited by peers, as indicated by his citation index of 12, further affirming his influence in the field of precision machining.
Editorial and Peer-Review Roles: Serving as an editorial member for international journals like the International Journal of Hydromechatronics and Nanotechnology and Precision Engineering, Dr. Yin is well-respected in the academic community. His role in these journals showcases his expertise and his commitment to advancing research in his areas of specialization.

Areas for Improvement:

Collaborations: While Dr. Yin has demonstrated substantial individual achievements, expanding his collaborative efforts, both nationally and internationally, could further enhance his research impact. Engaging in interdisciplinary collaborations or partnerships with industry could open new avenues for research and practical applications of his work.
Publication in High-Impact Journals: Although Dr. Yin has published extensively, further increasing the number of publications in higher-impact journals would bolster his academic profile. Targeting top-tier journals in the fields of material science and precision engineering could help in gaining wider recognition for his work.
Expansion of Research Areas: Dr. Yin’s current research focus is highly specialized, which is a strength, but expanding into related areas such as smart manufacturing, additive manufacturing, or automation in machining could diversify his research portfolio and potentially lead to more groundbreaking discoveries.

✍️Publications Top Note :

High-Performance Grinding of Ceramic Matrix Composites

Journal: Nanotechnology and Precision Engineering

Year: 2024

Citations: 0

Machinability of Submillimeter Holes in Ceramic Matrix Composites by High-Frequency Ultrasonic Vibration-Assisted Drilling

Journal: Journal of Materials Processing Technology

Year: 2024

Citations: 1

Experimental Study of Single Grain Grinding for SiCf/SiC Ceramic Matrix Composites

Journal: Zhongguo Jixie Gongcheng/China Mechanical Engineering

Year: 2022

Citations: 4

Rational Discussion on Material Removal Mechanisms and Machining Damage of Hard and Brittle Materials

Journal: Jixie Gongcheng Xuebao/Journal of Mechanical Engineering

Year: 2022

Citations: 5

Feasibility of Polarized Laser Scattering in Detecting the Grinding-Induced Subsurface Damage in SiCf/SiC Ceramic Matrix Composite

Journal: Composite Structures

Year: 2022

Citations: 8

Sensitivity of Polarized Laser Scattering Detection to Subsurface Damage in Ground Silicon Wafers

Journal: Materials Science in Semiconductor Processing

Year: 2022

Citations: 2

Influence of Alumina Abrasive Tool Wear on Ground Surface Characteristics and Corrosion Properties of K444 Nickel-Based Superalloy

Journal: Chinese Journal of Aeronautics

Year: 2022

Citations: 10

Generation Mechanism Modeling of Surface Topography in Tangential Ultrasonic Vibration-Assisted Grinding with Green Silicon Carbide Abrasive Wheel

Journal: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture

Year: 2022

Citations: 10

Edge Chipping Characteristics in Grinding SiCf/SiC Composite

Journal: Ceramics International

Year: 2022

Citations: 15

Depolarization of Surface Scattering in Polarized Laser Scattering Detection for Machined Silicon Wafers

Journal: Precision Engineering

Year: 2022

Citations: 7

Conclusion:

Dr. Jingfei Yin is a highly qualified candidate for the Best Researcher Award. His innovative contributions to the field of high-performance and precision machining, particularly his pioneering work on ultrasonic-assisted drilling and subsurface damage detection, position him as a leader in his field. While there are opportunities for expanding his collaborative efforts and diversifying his research areas, his existing accomplishments make him a strong contender for the award. His research not only advances the scientific understanding of machining processes but also has practical implications for improving efficiency and quality in manufacturing.

Prof Philip F. Yuan | Robotic Fabrication | Best Researcher Award

Published on 12/06/202412/06/2024 by Global Mechanics Awards

Prof Philip F. Yuan | Robotic Fabrication | Best Researcher Award

Prof Philip F. Yuan , CAUP, Tongji University, China

Prof Philip F. Yuan is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

Professional Profiles:

Scopus

Yuan, Philip F.

Info:

Tongji University, Shanghai, China
56057067100

📖 Publications Top Note :

Agent-Based Principal Strips Modeling for Freeform Surfaces in Architecture
Chai, H., Orozco, L., Kannenberg, F., Menges, A., Yuan, P.F.
Nexus Network Journal, 2024, 26(2), pp. 369–396
Explores innovative modeling techniques in architecture utilizing agent-based methods.

Bioinspired Sensors and Applications in Intelligent Robots: A Review
Zhou, Y., Yan, Z., Yang, Y., Yuan, P.F., He, B.
Robotic Intelligence and Automation, 2024, 44(2), pp. 215–228
A comprehensive review of bioinspired sensor technologies and their applications in robotics.

FloatArch: A Cable-Supported, Unreinforced, and Re-Assemblable 3D-Printed Concrete Structure Designed Using Multi-Material Topology Optimization
Li, Y., Wu, H., Xie, X., Yuan, P.F., Xie, Y.M.
Additive Manufacturing, 2024, 81, 104012
Presents a pioneering design in 3D-printed concrete structures optimized for reusability and sustainability.

Structural Performance-Based 3D Concrete Printing for an Efficient Concrete Beam
Wu, H., Li, Y., Xie, X., Gao, X., Yuan, P.F.
Sustainable Development Goals Series, 2024, Part F2790, pp. 343–354
Discusses advancements in 3D printing for creating efficient concrete beams.

Research on 3D Printing Craft for Flexible Mass Customization: The Case of Chengdu Agricultural Expo Center
Gao, T., Gu, S., Zhang, L., Yuan, P.F.
Sustainable Development Goals Series, 2024, Part F2790, pp. 465–480
Examines flexible customization in 3D printing through a case study of an agricultural expo center.

Preface
Yan, C., Chai, H., Sun, T., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072
Introduction to the latest volume focusing on computational design and robotic fabrication.

The Use of Normative Energy Calculation for Natural Ventilation Performance-Driven Urban Block Morphology Generation
Li, W., Xu, X., Makvandi, M., Sun, Z., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072, pp. 315–328
Investigates energy-efficient urban design through computational methods.

A Parametric Approach Towards Carbon Net Zero in Agricultural Planning
Yueyang, W., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072, pp. 305–314
Focuses on achieving carbon neutrality in agricultural planning using parametric design techniques.

ISOMORPHISM: Stylized Translations of 2D Prototype in Additive Clay Printing
Gong, L., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072, pp. 515–525
Explores the translation of 2D designs into 3D printed clay structures.

Practical Application of Multi-Material Topology Optimization to Performance-Based Architectural Design of an Iconic Building
Li, Y., Ding, J., Zhang, Z., Yuan, P.F., Xie, Y.M.
Composite Structures, 2023, 325, 117603
Applies multi-material optimization in creating high-performance architectural designs.