| Product Name | Specification | Material |
|---|---|---|
| Locking Plate T-Shaped | 5 hole | Titanium Alloy |
| Product Name | Model | Specification | Material | Code | 5 - 20 (Price) | 20+ (Price) |
|---|---|---|---|---|---|---|
| Reconstruction Locking Plate | ZXSD02 | 6 hole | Titanium Alloy | 10010006 | 57.95 | 54.9 |
| Narrow Dynamic Locking Plate II | ZXSD05 | 6--14 hole | Titanium Alloy | 10040406 | 54.15 | 51.3 |
| Humeral compression locking plate | JPSD13 | 4--16 hole | Titanium Alloy | 10350203 | 57.95 | 54.9 |
| Clavicular Hook Locking Plate | JPSD09 | 4--8 hole | Titanium Alloy | 10300204 | 56.05 | 53.1 |
| Clavicular Hook Locking Plate II | JPSD90 | 4--10 hole | Titanium Alloy | 10300204 | 57 | 54 |
| Reconstruction Clavicular Locking Plate IV | JPSD94 | 7-9 hole | Titanium Alloy | 11150207 | 76 | 72 |
| Proximal humeral locking plate | JPSD33 | 3--14 hole | Titanium Alloy | 10540203 | 58.9 | 55.8 |
| Obique T- Locking Plate | JPSD07 | 3 hole | Titanium Alloy | 10280203 | 58.9 | 55.8 |
| Distal lateral humeral locking plate | JPSD13 | 3--11 hole | Titanium Alloy | 10280203 | 68.5 | 64.8 |
| Proximal ulnar locking plate | JPSD15 | 3--12 hole | Titanium Alloy | 10360203 | 71.25 | 67.5 |
| Distal radial locking plate II | JPSD78 | 3--8 hole | Titanium Alloy | 10990203 | 40.85 | 38.7 |
Made of high-grade titanium alloy. Offers 3 different dorsiflexion angles (0°, 5°, and 10°) suitable for different joint configurations. Reliable structure featuring Kirschner wire compression holes and slots in the middle of the plate. Etching lines indicate precise and correct fusion alignment.
Anatomically precontoured plates designed with a countersinkable head design for 2.7mm screws to significantly reduce soft tissue irritation. Available in 5 distinct types, allowing orthopedic surgeons to customize secure fracture fixation schemes based on individual patient pathology.
Constructed from premium titanium alloy. Designed with extension holes in the middle of the plate to facilitate precise position adjustments. Can be placed flexibly on either the ulnar or radial sides of the phalanx. Economically precontoured with anatomically optimized left and right options.
The volar and dorsal distal radius combination provides exceptional versatility for surgical requirements. The precontoured low-profile design conforms tightly to the bone surface, reducing soft tissue irritation. Features a round, thin, blunt edge design tailored for minimally invasive insertion through the muscle layers.
Engineered from premium titanium alloy material. The anatomically precontoured design perfectly matches the calcaneal protrusion, posterior articular talus, and calcaneal tubercle. A countersinkable screw head design prevents protrusion from the plate surface, optimizing overall post-operative comfort.
Normally we send through secure international couriers like DHL, FEDEX, UPS, TNT, etc., or standard post options upon direct request from clients.
Yes, our manufacturing systems conform to medical device industry standards. We ensure strict adherence to quality control guidelines throughout our production cycles.
We typically expect minimum initial orders of at least US$500. However, we understand that clients may need to place smaller sample orders initially to test products in their local markets. We can offer free samples, but the buyer covers the freight costs.
Absolutely. You can send us detailed pictures or physical samples, and we will work to accommodate your needs. Please note that customized orders may require slightly longer delivery timelines.
Generally, we maintain stock for most listed products, which are replenished monthly depending on sales velocity. We recommend consulting our sales representatives for precise real-time inventory levels. For payment: sums under USD 800 require 100% advance payment; sums over USD 800 require 30% T/T advance with balance paid before shipment. We support L/C, T/T, Western Union, PayPal, etc.
All our standard locking plates and devices featured in the catalog are constructed using medical-grade Titanium Alloy, assuring maximum biocompatibility, structural strength, and corrosion resistance inside the human body.