Search Results (3)

Orthopedic implants are essential for treating severe fractures and incomplete bone regeneration. However, metal-based implants often suffer from corrosion and biocompatibility issues. This study developed 3D-printed Polylactic Acid Plus (PLA+) bone screws coated with molybdenum and zirconia (ZrO₂) nanocomposites using the dip-coating method. The Taguchi method optimized five coating parameters: molybdenum weight, zirconia weight, ethanol volume, incubation time, and coating duration. The Taguchi method and Response Surface Methodology (RSM) were used for data analysis, while NSGA-II and TOPSIS determined the optimal parameters. Molybdenum weight significantly increased compressive strength (35.45%), while coating time had the greatest effect on density (25.88%). Optimization improved compressive strength/Ec (Modulus of elasticity) to 315.808 MPa and density to 1.141 g/cm³. Compressive strength was significantly improved through optimized coating parameters; however, the achieved value of 315.808 MPa requires validation due to its relatively high magnitude compared to typical PLA materials reported in the literature. The study concludes that combining the Taguchi and NSGA-II methods effectively enhances the mechanical performance and biocompatibility of biodegradable bone screws. The optimal dip-coating parameters were 0.101 g molybdenum, 0.100 g zirconia, 59.523 mL ethanol, 6.025 h of incubation, and 7.907 min of coating time. However, the study is limited to in vitro mechanical testing, and further in vivo evaluations are necessary to confirm long-term biocompatibility and performance. Full article

This research aims to achieve early standardization for battery swapping in line with domestic capabilities and global standards, and to protect Indonesian battery swap stakeholders. By distributing questionnaires to 190 respondents, the Framework for Analysis, Comparison, and Testing of Standards (FACTS) approach was used to analyze stakeholder needs, compare global standards regarding battery swaps, and validate the Indonesian National Standard (SNI) framework. An open innovation approach was considered to integrate a FACTS approach with open participation, mutual understanding, and consensus to generate parameters. Therefore, characteristics of open participation, mutual understanding, and consensus were identified using FACTS to catalyze market needs as well as stakeholder needs. The relationship between SNI implementation variables, national uniqueness, and stakeholder needs was predicted using structural equation modeling (SEM). We found that the proposed constructs—i.e., electromagnetic compatibility, equipment construction requirements, marking and instruction, and protection against electric shock—positively affect SNI implementation. Meanwhile, the SNI implementation, national uniqueness, and stakeholder protection positively affect SNI acceptance. Therefore, SNI acceptance can be obtained by considering SNI implementation, national uniqueness, and stakeholder protection. The findings of this study can be used to develop an SNI battery swap test that is globally competitive, has national characteristics, and considers domestic capabilities when developing the SNI documentation. Full article

The innovation of electric motorcycle swap-battery (EMSB) technology encourages the formation of a new ecosystem at the early stage of the supply chain. The EMSB technology has allowed an open innovation system with collaboration between supply-chain players, universities, and the government for finding a thriving solution to enable the faster adoption and diffusion of EMSB in Indonesia. Standardization is seen as a way to accelerate the downstream EMSB technology innovation to leverage the economic benefits and to support the growth of a green economy in Indonesia. This study aimed to propose a model with which to measure the technology readiness of the EMSB’s stakeholders in implementing the swappable battery (SB) standard. We developed the technometric framework and Economic Benefits of Standards—ISO Methodology 2.0. We generated 13 criteria of technoware, humanware, inforware, and orgaware and 21 indicators of the standard’s impacts to be utilized as a measurement model. We interviewed 11 respondents consisting of the standard regulator, research and development center, manufacturer, testing labs, and product-certification bodies. The results show the technology contribution coefficient (TCC) and earnings before interest and taxes (EBIT) value representing the SB standard’s feasibility. The proposed model can evaluate the weak points and propose strategies to leverage the SB standard’s technology readiness and economic benefits. Full article