Consistent Academic Support
Science Net ensures that research activities continue without interruption in the current global situation. Participants can engage through digital and hybrid conference formats.
Input this Professional Credit at checkout for a max $30.00 offset.
UN Sustainable Development Goals
This conference contributes to global sustainability by aligning its research discussions and academic sessions with key United Nations Sustainable Development Goals. It fosters knowledge exchange, innovation, and collaborative engagement.
Why it matters
SDG 3 — Good Health and Well-being
SDG 9 — Industry, Innovation and Infrastructure
SDG 12 — Responsible Consumption and Production
This track focuses on the latest innovations in biomedical materials, emphasizing their applications in medical devices and implants. Researchers are invited to present studies on the development and characterization of new materials that enhance patient outcomes.
This session explores the mechanical properties of various biomaterials, including their stress-strain relationships and fatigue behavior. Contributions that examine the mechanical performance of materials under physiological conditions are particularly welcome.
This track highlights the integration of engineering principles in tissue engineering and regenerative medicine. Papers discussing scaffold design, cellular interactions, and the use of biomaterials for tissue regeneration are encouraged.
This session addresses the latest manufacturing techniques for biomedical materials, including additive manufacturing and surface modification. Presentations should focus on how these processes impact the performance and functionality of biomedical devices.
This track delves into the fracture mechanics of hard tissues and biomaterials, exploring how these principles apply to clinical scenarios. Researchers are invited to share insights on failure mechanisms and predictive modeling of material behavior.
This session examines the wear and friction characteristics of joint materials and their replacements, including coatings. Studies that investigate the long-term performance of these materials in load-bearing applications are particularly relevant.
This track focuses on the mechanical characterization of scaffolds used in tissue engineering applications. Contributions should address the relationship between scaffold properties and cellular behavior, as well as implications for tissue integration.
This session explores the mechanical behavior of cells, including adhesion mechanisms and their implications for tissue engineering. Researchers are encouraged to present experimental and computational studies that enhance our understanding of cellular mechanics.
This track investigates the mechanical properties of biological molecules, such as DNA, and their relevance to biomedical applications. Contributions should focus on how these properties influence biological functions and material design.
This session addresses the long-term fatigue, creep, and wear properties of biomaterials used in implants. Studies that assess the durability and reliability of these materials in clinical settings are highly encouraged.
This track examines the behavior of human tissues under impact loading conditions, with a focus on understanding injury mechanisms and material responses. Researchers are invited to present experimental and computational studies that contribute to this field.
Science Net ensures that research activities continue without interruption in the current global situation. Participants can engage through digital and hybrid conference formats.