The Application of Diatomite Fillers in Dental Impression Materials Description

1. Introduction

Siltstone filler is a natural porous inorganic material mainly composed of silicoflagellate fossils. It has a high specific surface area, excellent adsorption properties, chemical inertness, and good biocompatibility. In the field of dental impression materials, siltstone filler is widely used to improve the fluidity, dimensional stability, mechanical strength, and operational performance of impression materials due to its unique physical and chemical properties. This article will detail the application of siltstone filler in dental impression materials, including its mechanism of action, performance advantages, and future development trends.

2. Mechanism of Action of Siltstone Filler in Dental Impression Materials

Dental impression materials are mainly used to precisely replicate the morphology of patients' oral soft and hard tissues, so as to make restoration, dentures, or orthodontic models. Due to its micrometer-scale porous structure, siltstone filler can play the following key roles in impression materials:

2.1 Improving fluidity and detail reproduction

The high porosity of siltstone filler enables it to adsorb moisture or solvents in the impression material, regulating the rheological properties of the system. In alginate impression materials, siltstone filler can optimize the thixotropy of the paste, enhancing its fluidity under pressure and maintaining stability when at rest, thus accurately recording the fine structures of teeth and gums. Additionally, the particle morphology of siltstone filler helps reduce the shrinkage of the impression material during curing, improving dimensional accuracy.

2.2 Enhancing mechanical strength and tear resistance

Siltstone filler in impression materials can act as an reinforcing phase, increasing the tensile strength and tear resistance after curing. Its porous structure can form physical cross-links with the polymer matrix (such as polyether or polysulfide rubber), reducing the risk of deformation during demolding. This is crucial for deep sulcus or complex dentition impression integrity.

2.3 Regulating curing time and operability

The water absorption of siltstone filler can affect the curing rate of the impression material. In fast-setting impression materials, siltstone filler can adsorb some reaction water, delaying the curing process, providing more time for clinical operations; while in conventional curing systems, its porous structure can promote uniform water distribution, ensuring the consistency of the material's overall performance.

3. Application of Siltstone Filler in Different Types of Dental Impression Materials

3.1 Alginate Impression Materials

Alginate impression materials are widely used in clinical practice due to their ease of use and low cost. Siltstone filler in alginate systems mainly serves as an inert filler, optimizing the consistency and anti-deformation ability of the material. Its high specific surface area can adsorb excess moisture, reducing curing shrinkage and improving the dimensional stability of the impression. Additionally, the addition of siltstone filler can reduce the "powdering" phenomenon of alginate, making the impression surface smoother and facilitating subsequent mold filling.

3.2 Polyether/Thermosetting Silicone Impression Materials

In silicone impression materials, siltstone filler is mainly used to regulate viscosity and enhance mechanical properties. Since silicone rubber itself has high elasticity but limited tear resistance, the addition of siltstone filler can form a micro-reinforcing network, improving the tensile strength of the material. Additionally, siltstone filler can also improve the thixotropy of silicone rubber, making it flow better during injection and remain stable after curing in the oral cavity, reducing impression deformation.

3.3 Polysulfide Rubber Impression Materials

Polysulfide rubber impression materials, due to their high precision and stability, are often used for the fabrication of precise restorations. The role of siltstone filler in this system is mainly to regulate rheological properties and reduce curing shrinkage. Its porous structure can adsorb some cross-linking agents, optimizing the curing reaction rate, and ensuring the long-term storage of high precision.

4. Performance Advantages of Siltstone Filler

4.1 Biocompatibility

Siltstone filler is a natural inorganic material with no cytotoxicity, meeting the ISO 10993 medical device biocompatibility standards, and is suitable for dental clinical applications. 4.2 Environmental Protection and Sustainability

Compared to synthetic fillers, diatomite fillers have a wider source and lower processing energy consumption, which is in line with the development trend of green dental materials.

4.3 Economy

Diatomite fillers have a lower cost and can partially replace expensive nano-fillers (such as aerogel silica), reducing the production cost of impression materials while maintaining excellent performance.

5. Future Development Trends

In the future, the application of diatomite fillers in dental impression materials will develop towards functionalization and refinement, for example:

Surface-modified diatomite fillers: Through silane coupling agent treatment, improve their compatibility with organic substrates, further optimize mechanical properties.

Nano-diatomite composite fillers: Combining nanotechnology, develop more precise impression materials suitable for digital oral scanning-assisted restoration.

Antibacterial diatomite fillers: Load silver ions or antibacterial agents, endow impression materials with antibacterial function, reduce the risk of cross-infection.

6. Conclusion

Diatomite fillers, with their unique physical and chemical properties, play an important role in dental impression materials, including improving fluidity, enhancing mechanical properties, and optimizing curing behavior. With the advancement of materials science, the application of diatomite fillers will further expand, providing new possibilities for the development of high-precision and high-performance dental impression materials. In the future, through surface modification and composite technology, diatomite fillers are expected to achieve wider application in digital dentistry and functional impression materials.