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Home ≫Mortuary >Virtual Dissection Table and Digital Systems >3D Printing Models >3D Printing Model-Hand Muscles SMI-3DP-HM
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Constructing a multi-structured 3D digital anatomical model using high-precision digitized human body data. Utilizing a full-color, multi-material 3D printer and environmentally friendly resin materials to create 1:1 highly realistic anatomical models.
The 3D-printed model of hand muscles includes the distal end of the forearm, as well as the bones, muscles, tendons, skin, and other structures of the hand. It is a full-color printed model that combines both soft and hard materials. The bones in this model are made of a rigid material, while the muscles, tendons, and skin possess a certain degree of softness, providing a tactile feel similar to real bones and soft tissues.
The morphological characteristics, structure, and spatial relationships of the bones, muscles, tendons, and other components in the hand muscle model are highly consistent with real anatomical specimens. The textures of the muscle fibers and tendons of the forearm and hand accurately replicate those of real human specimens. Additionally, a section of skin and superficial fascia has been preserved in the model, effectively illustrating the spatial relationship between the bones and muscles in this region.
The selected full-color, multi-material 3D printer was used to print the digital model, utilizing 3D inkjet printing and light-curing technology with 12 material channels for multi-material combination printing. This advanced 3D printer supports various printing modes, including single-hardness material, soft and hard combination material, and transparent encapsulated material.
Full-Color Printing: Multi-channel digital full-color 3D printing technology offers unique color configuration options, enabling the creation of vibrant and highly detailed models.
Multi-Material Printing (with Eco-Friendly Materials): The printer accommodates a wide range of materials, from rubber-like to rigid, transparent to opaque, and colorless to colored. It also supports standard-grade and biocompatible materials, providing diverse composite 3D printing solutions for complex surgical medical models used in anatomy teaching, neurosurgery, cardiovascular studies, oncology, and more.
High-Efficiency Printing: Equipped with up to 3,840 piezoelectric nozzles and advanced algorithms, the printer achieves high-frequency jet curing at a rate of up to 4L per hour. Efficient post-processing equipment ensures faster, more precise printing with no need for secondary curing.
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