Coping - Temporary
IPD offers a full range of temporary abutments for dental implants, including provisional, and temp abutments. Designed for stability during the healing phase, each implant temporary abutment ensures precise fit and compatibility with leading systems. Order directly from the manufacturer with full confidence.
What Are Temporary Abutments Used For?
Temporary abutments are designed to support provisional restorations during the healing phase following implant placement. Their primary function is to provide stability and soft tissue management while maintaining aesthetics and function before the final prosthesis is placed.
At IPD, our implant temporary abutments are engineered for precision and versatility. Whether you're fabricating an immediate load crown, a screw-retained provisional bridge, or a tissue-conditioning temporary, our components offer the mechanical strength and connection reliability needed for predictable healing and patient comfort.
Types of Temporary Abutments Available
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Provisional Abutment: Used to support temporary prostheses during early loading, offering excellent fit and platform-specific design.
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Temp Abutment for Screw-Retained Crowns: Designed for retrievability and ease of access during provisionalization.
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CAD/CAM Temporary Abutments: Compatible with digital workflows, allowing custom provisional restorations milled from PMMA or composite materials.
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Engaging and Non-Engaging Options: For use in both single-unit and multi-unit restorations depending on clinical case.
All IPD temporary abutments are designed for platform compatibility, stability under occlusal load, and soft tissue support throughout the provisional period.
Materials and Technical Specifications of Our Temporary Abutments
IPD's temporary abutments are manufactured using high-performance materials tailored to short- and medium-term use. Most provisional abutments are made of medical-grade titanium or stainless steel for strength.
Our Temporary abutments feature polished collar surfaces for optimal soft tissue adaptation, anti-rotational designs for single restorations, and variable collar heights to accommodate different clinical needs. Torque recommendations, connection geometries, and platform-specific indexing ensure secure seating and long-term predictability, even during prolonged healing periods.