Exploring the Impact of 3D Technology on Supply Chain Optimization in the Pharmaceutical Industry
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Exploring the Impact of 3D Technology on Supply Chain Optimization in the Pharmaceutical Industry
Dr. Anand Kumar Singh
Assistant Professor, Department of Mechanical Engineering
Government Engineering College, Mota Falia Verkund
Nani-Daman 396210, UT administration of DNH & DD
anandsinghsees@gmail.com; https://orcid.org/0000-0001-5206-7862
Abstract:
The pharmaceutical industry faces increasing challenges in reducing lead times, minimizing production costs, and enhancing product accuracy. Traditional manufacturing and supply chain processes often struggle to meet the rising demand for customization, speed, and efficiency. This study investigates the impact of integrating 3D technology into pharmaceutical supply chains by comparing key performance indicators such as production time, cost per unit, lead time, error rate, inventory holding cost, and downtime. A quantitative approach was adopted using a comparative analysis between conventional methods and 3D-enabled processes. The results indicate that 3D technology significantly improves supply chain performance: reducing production time by 40%, cost per unit by 33.33%, and error rate by 80%. These enhancements underline 3D printing’s transformative potential in optimizing pharmaceutical operations. The study concludes that adopting 3D technology enables faster, cost-effective, and more reliable supply chain processes, contributing to the sector's competitiveness and innovation.
Keywords:
3D Technology, Pharmaceutical Supply Chain, Additive Manufacturing, Cost Reduction, Lead Time, Production Optimization, Error Minimization, Smart Manufacturing, Supply Chain Innovation, Industrial Efficiency
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