A REVIEW ON STUDY OF 3D PRINTING ON KNEE JOINT
Dr. B. Vijaya Kumar1, Adepu Vinay2, B. Vijay Kumar3,
Ch. Manoj Kumar4
1Dr. B. Vijaya Kumar Professor and HOD Mechanical & GNIT
2 Adepu Vinay Mechanical & GNIT, 3B. Vijay Kumar Mechanical & GNIT,
4Ch. Manoj Kumar Mechanical & GNIT
ABSTRACT
The main purpose of this review is to study the design and molding of the knee joint using Additive Manufacturing Technology [3DPRINTING]. A literature review was conducted of studies conducted by various authors regarding the design of the knee joint in print. It was observed that there are 5 papers that the authors have researched and worked on. 1. Knee joint design and manufacturing of smart transformer femoral artificial joint using aluminum alloy 6061, aluminum alloy 7075 and AISI4130 steel. 2. Oliver GrimaldoRuiz1 and YasinDhaher describe a novel method for developing multi- material realistic anatomical models in multi-color multi-color knee joints with unique features. In particular, the design of the fibrous matrix structure mimics the anatomy of soft tissue. 3 TTM.Kannan, R.Mohan are working to improve bone models of the human knee joint using 3D- printed technology to implement human bone grafts. This build model ensures that all bony parts of the human knee joint, such as the femur, tibia, fibula, and patella, are made exactly the same size, providing a good surface finish. 4D.Rajabhushan, R.Vishnuvardhanreddy proposes an artificial knee joint in a cost-effective and time-consuming manner. For this task in the shortest amount of time, we collect MRI digital data of a specific patient's knee joint and import it into 3D slicer software. 5 Comparison of femoral rollback using patient-specific 3D knee model. After total knee arthroplasty (TKA). This study focuses on how to detect these changes and their effect on knee movement after TKA. This approach can reduce complications and reduce the number of corrections in patients with postoperative pain. We observe that there is scope for experimentation and design of biomedical [orthopedic] joints to provide solutions to orthopedic problems.