Journal of Advanced Research in Machine Drawing Solutions and CAD Technologies

The Journal of Advanced Research in Machine Drawing Solutions and CAD Technologies (JARMDS-CAD) is a peer-reviewed international journal dedicated to advancing the field of machine drawing, technical illustration, and computer-aided design (CAD) technologies. The journal aims to provide a comprehensive platform for publishing high-quality research, case studies, and reviews on innovative approaches, methodologies, and applications of machine drawing solutions and CAD in mechanical and industrial engineering design.

The scope of the journal spans a broad spectrum of topics related to machine drawing, CAD systems, and digital design technologies, focusing on both theoretical advancements and practical applications in diverse engineering sectors.

Scope:

1. Machine Drawing and Technical Illustration:
• Evolution and best practices in machine drawing and technical drawing standards (e.g., ISO, ANSI, ASME)
• Advanced techniques in technical illustration for engineering design
• Symbolism and annotation in engineering drawings
• 3D and 2D drawing techniques in the context of product design and development
• CAD-based machine drawing solutions for mechanical and industrial systems
• Automation of drafting and technical drawing processes using CAD systems
2. Computer-Aided Design (CAD) Systems and Software:
• Development and optimization of CAD software tools for mechanical design
• Integrating CAD systems with other engineering tools (CAE, CAM, PLM)
• Advances in parametric design, associative drawing, and modeling in CAD
• Collaborative CAD platforms and cloud-based CAD solutions
• User interface and experience improvements in CAD applications
• Open-source CAD tools and custom solutions for industry-specific needs
• CAD for digital prototyping and visualization
3. 3D Modeling and Simulation in CAD:
• Techniques in 3D solid modeling and surface modeling
• Advanced modeling techniques for complex geometries and assemblies
• Parametric, feature-based, and constraint-driven modeling approaches
• Simulation of mechanical behavior using CAD models (structural, thermal, fluid)
• Integration of CAD with Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) tools
• Use of CAD for stress analysis, motion simulation, and kinematics
• Digital twin technologies for real-time simulation and testing
4. Geometric Modeling and CAD Standards:
• Geometric dimensioning and tolerancing (GD&T) in CAD
• CAD data exchange formats (STEP, IGES, STL, DXF)
• Ensuring data integrity and interoperability between CAD systems
• Advanced techniques in surface modeling, NURBS, and B-rep modeling
• Standardization in CAD and its importance in global product development
• 3D scanning and reverse engineering for CAD modeling
5. CAD for Manufacturing and Product Lifecycle Management (PLM):
• Integration of CAD with CAM (Computer-Aided Manufacturing) systems
• Generative design and CAD-based optimization for manufacturing
• CAD integration with additive manufacturing (3D printing) technologies
• Product lifecycle management (PLM) in CAD systems
• Design for manufacturability (DFM) and design for assembly (DFA)
• CAD-based solutions for assembly line design, tools, and fixtures
• Digital thread and its role in end-to-end manufacturing
6. Advanced CAD Techniques and Emerging Technologies:
• AI, machine learning, and deep learning in CAD design and automation
• Virtual reality (VR) and augmented reality (AR) in CAD visualization and design review
• Blockchain and IoT applications in CAD and product data management
• Cloud computing and CAD data storage for collaborative design
• Advances in parametric and generative design in CAD tools
• CAD in Industry 4.0 and the digital factory environment
7. CAD for Machine Design and Engineering Applications:
• Application of CAD tools in machine design and assembly
• CAD-based systems for sheet metal design, CNC machining, and tooling
• Designing mechanical components, mechanisms, and structures with CAD
• Automotive, aerospace, and consumer product design using CAD
• Ergonomic design and human-centered design using CAD tools
• CAD for simulation-based design and virtual testing
8. Educational and Practical Aspects of CAD:
• Teaching and training methodologies for CAD skills in engineering education
• Development of new curricula and educational tools for CAD in technical institutions
• E-learning and online resources for CAD proficiency
• Practical case studies on the use of CAD in industry
• Professional development programs for CAD designers and engineers
• Integration of CAD into multidisciplinary engineering design projects
9. Sustainability and Green Design in CAD:
• CAD tools for sustainable product design and eco-friendly manufacturing
• Energy-efficient design solutions using CAD
• CAD for circular economy applications and recycling technologies
• Optimizing the environmental footprint of products using CAD technologies
• Use of CAD in designing for sustainability and resource conservation
10. Applications of CAD in Multidisciplinary Engineering Fields:
• Interdisciplinary applications of CAD in civil, electrical, and industrial engineering
• CAD for integrating mechanical systems with electrical and fluid systems (Mechatronics)
• CAD applications in robotics, biomedical devices, and healthcare technologies
• The role of CAD in additive manufacturing for specialized applications
• CAD in renewable energy systems, such as wind turbines and solar panels