International Journal of Additive-Manufactured Structures (IJAMS, ISSN 2789-5017)
Nowadays, engineers have been used additive manufacturing to fabricate components with a complex geometry. The application is from automotive, civil and aerospace industries to biomechanics and biomedicals. Furthermore, other advantages of additive manufacturing are the minimization of the waste material and to have optimized weigh for the desired structure. However, there exist some disadvantages such as low quality of 3D-printed parts.
For this objective, 3D-printer devices have been developed in different techniques. Ceramic, polymeric and metallic materials are 3D-printed through the additive manufacturing process, layer by layer. Then, material properties could be evaluated for a superior state, based on working conditions of the component. Moreover, ceramic-, polymeric-, and metallic-s and nano-composites are designed and 3D-printed to have higher quality. In addition to 3D-printing, other new technologies could be used as 4D-, 5D-, and 6D-printing for smart and shape memory materials.
To spread the knowledge in additive manufacturing, a new international journal has been handled by the âINNOVATION FOREVERâ publisher, entitle âInternational Journal of Additive-Manufactured Structuresâ. In this international journal, articles are accepted for the submission on the topic of additive manufacturing for ceramics, polymers and metals and also their nano-/micro-/meso-/macro-structural, biological, mechanical, tribological, wear, creep, corrosion, fretting, fracture, and fatigue properties. In this journal, both short- and full-review articles are also invited besides research articles, letters (comments on published articles), short communications (without literature review), experimental data (only raw data without discussion), software, and hardware; in order to discuss technologies, developments, applications, challenges and limitations, but in a specific area of additive manufacturing.
Specific topics covered in the journal include, but are not limited:
Additive manufacturing technologies
Additive manufacturing processes
Additive manufacturing methods and techniques
Additive manufacturing advances
Additive-manufactured materials, bio-materials, bi-materials, multi-materials, and metamaterials
Additive-manufactured composites, micro-composites, meso-composites and nano-composites
Additive manufacturing: metals, polymers and ceramics
Additive-manufactured systems
Additive manufacturing economics
Additive manufacturing instrumentation and measurement
Additive manufacturing applications
Additive manufacturing design, modeling, simulation and optimization (topology, shape, etc.)
Additive manufacturing standards
Additive-manufactured parts testing
Additive-manufactured parts characterizing (mechanical, electrical, chemical, biological, optical and surface properties)
Additive manufacturing: fatigue, fracture, creep, corrosion, fretting and wear behaviors
Additive manufacturing: 3D-, 4D-, 5D-, 6D-printing
Additive manufacturing: bio-printing
Additive manufacturing: mechanical engineering
Additive manufacturing: civil engineering
Additive manufacturing: materials engineering
Additive manufacturing: electrical engineering
Additive manufacturing: computer engineering
Additive manufacturing: chemical engineering
Additive manufacturing: medical sciences
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