Microcrystalline Cellulose PH 102: Your Pharmaceutical Formulation Partner
Discover the unparalleled versatility and performance of Microcrystalline Cellulose PH 102, the essential excipient for superior tablet and capsule manufacturing.
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Microcrystalline Cellulose 102
As a refined form of plant cellulose, Microcrystalline Cellulose (MCC) PH 102 is a vital excipient that enhances the manufacturability and performance of pharmaceutical dosage forms. Its unique properties as a binder and diluent are crucial for creating stable, effective tablets and capsules.
- Achieve superior tablet integrity and consistency with the strong binding capabilities of MCC as a pharmaceutical excipient.
- Utilize the excellent flow properties of microcrystalline cellulose PH 102 for efficient capsule filling processes.
- Leverage MCC's role as a key diluent in pharmaceutical formulations to achieve optimal tablet size and content uniformity.
- Enhance drug release and bioavailability through the disintegrant properties of cellulose excipients for capsule filling.
Key Advantages
Exceptional Compressibility
Microcrystalline Cellulose PH 102 offers outstanding compressibility, enabling efficient direct compression and reducing manufacturing complexity, contributing to cost-effective production.
Enhanced Flowability
The improved flow characteristics of microcrystalline cellulose PH 102 are vital for consistent powder movement in high-speed tableting and capsule filling machines.
Versatile Functionality
MCC acts as a multi-functional excipient, serving as a binder, filler, diluent, and disintegrant, simplifying formulations and improving overall product performance.
Key Applications
Tablet Binding
Leverage the exceptional binding properties of microcrystalline cellulose for robust tablet formulation.
Capsule Filling
Improve process efficiency with the excellent flow characteristics of MCC as a capsule filler.
Diluent Use
Serve as an effective diluent in pharmaceutical preparations to achieve desired tablet bulk and weight.
Disintegration Enhancement
Facilitate faster drug release and absorption by employing cellulose excipients as disintegrants.