Flat Titanium Mesh-2D Square Hole
Utilization
neurosurgery reconstruction and restoration, cranial defect repair, assistance with medium- or large-scale cranial reconstruction demands.
Composition: medical-grade titanium
Product specification
|
Item No. |
Specification |
|
12.09.0120.100100 |
100x100mm |
|
12.09.0120.120120 |
120x120mm |
|
12.09.0120.120150 |
120x150mm |
|
12.09.0120.150150 |
150x150mm |
|
12.09.0120.200180 |
200x180mm |
|
12.09.0120.250200 |
250x200mm |
Features & Benefits:
elliptical list arrangement
• Make contact with every hole; steer clear of the conventional titanium mesh's drawbacks, which include distortion and modeling difficulty. Assure that the titanium mesh will be simpler to shape and bend to meet the atypical shape of the skull.
• The titanium mesh's hardness and flexibility are enhanced by the distinctive rib reinforcing design.
• 2D titanium mesh is especially ideal for the relatively simple cranial regions where high hardness but little curvature is required, such as calvaria, pars frontalis, tempora, and occipitalia.
• Mesh offers good hardness and superior strength, will not twist or rebound after bend.
• In a magnetic field, no magnetization and no iron atom. After surgery, there is no impact on MRI, CT, or Η-rays.
• Outstanding corrosion resistance, high biocompatibility, and stable chemical characteristics.
• Extremely hard and light.
• Make contact with every hole; steer clear of the conventional titanium mesh's drawbacks, which include distortion and modeling difficulty. Assure that the titanium mesh will be simpler to shape and bend to meet the atypical shape of the skull.
• The titanium mesh's hardness and flexibility are enhanced by the distinctive rib reinforcing design.
• 2D titanium mesh is especially ideal for the relatively simple cranial regions where high hardness but little curvature is required, such as calvaria, pars frontalis, tempora, and occipitalia.
• Mesh offers good hardness and superior strength, will not twist or rebound after bend.
• In a magnetic field, no magnetization and no iron atom. After surgery, there is no impact on MRI, CT, or Η-rays.
• Outstanding corrosion resistance, high biocompatibility, and stable chemical characteristics.
• Extremely hard and light.
• Following surgery, fibroblasts can grow into the mesh holes to integrate the titanium mesh with the surrounding tissue.
Complementary screw:
Self-drilling screw with a φ1.5 mm
Screw with self-drilling Ά2.0 mm
Self-drilling screw with a φ1.5 mm
Screw with self-drilling Ά2.0 mm
Equivalent tool:
Mesh moulding pliers, cable cutter (mesh scissors), cross head screwdriver: SW0.5*2.8*75mm straight quick coupling handle
