Osteotome Flat Chisel - 4 mm Wide | Helmut Zepf No. 47.949.21
The Osteotome Instrument by Helmut Zepf GmbH is a precision flat chisel engineered for controlled, exacting bone preparation in dental and surgical clinical settings. Catalogued as No. 47.949.21, this instrument features a 4 mm wide blade profile that delivers the tactile feedback and accuracy required for demanding osseous procedures.
Product Overview
Helmut Zepf No. 47.949.21 is a dedicated flat chisel Osteotome Instrument designed to meet the rigorous requirements of modern dental surgery. Its 4 mm blade width enables precise bone splitting, compaction, and shaping while minimising trauma to surrounding tissue. Manufactured in Germany, it reflects the high craftsmanship standards that Helmut Zepf GmbH maintains across its full range of surgical instruments.
Key Features
- Type: Flat Chisel Osteotome
- Blade Width: 4 mm
- Manufacturer: Helmut Zepf GmbH
- Made in Germany
- Designed for precision osseous procedures

Why Choose This Osteotome Instrument?
Choosing the correct Osteotome Instrument is fundamental to procedural success. The Helmut Zepf flat chisel osteotome is well-suited for implant site preparation, bone grafting procedures, and any application that requires surgical-grade reliability. Its balanced construction and refined finish provide consistent performance across repeated clinical use.
FAQ
What is the blade width of this osteotome? The blade is 4 mm wide, making it appropriate for precise, controlled bone work in a variety of surgical applications.
Where is this instrument manufactured? This instrument is made in Germany by Helmut Zepf GmbH, ensuring adherence to rigorous manufacturing and quality standards.
What chisel design does this osteotome feature? It features a flat chisel design optimised for accuracy in osseous preparation and surgical procedures.
What procedures is this instrument suited for? This Osteotome Instrument is suited for implant site preparation, bone grafting, and other osseous procedures requiring precision and minimal tissue disruption.
