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Pharmaceutical Technology II Assignment Mechanism of Granulation Submitted by Shahnaz Jalil-1210657046 Nayela Nabiha Chowdhury1210115046 Hamzah Naquib-1210098046 Tasfin Mostafa-1210830046 Submitted to Dr. Mohammad Shahriare Department of Pharmacy North South University
Granulation Process Introduction •Granulation is the process of collecting particles together by creating bonds between them. Bonds are formed by compression or by using a binding agent. •The granulation process combines one or more powder particles and forms a granule that will allow tableting or spheronization process to be within required limits. This way predictable and repeatable process is possible and quality tablets or pellets can be produced using tableting or spheronization equipment. • Granules typically have a size range between 0.2 to 4.0 mm depending on their subsequent use. Granulation refers to the act or process in which primary powder particles are made to adhere to form larger, multi-particle entities called granules. Granules consist of particles formed by the progressive enlargement of primary particles until their original identity is no longer visible. Granules http://www.burner.su/aditional/granulation%20theory.pdf http://www.techceuticals.com/The_Granulation_Process_101.pdf
Objective of Granulation: •The objective of granulation process is to combine ingredients to produce a quality tablet. •To prevent segregation of the constituents of the powder mix. Segregation is due to differences in the size or density of the component of the mix. Normally, the smaller and/or denser particles tend to concentrate at the base of the container with the larger and/or less dense ones on the top. An ideal granulation will contain all the constituents of the mix in the correct proportion in each granule and segregation of granules will not occur. •To improve the flow properties of the mix. Many powders are cohesive and have poor flow property because of their small size, irregular shape or surface characteristics. Granules produced from such a cohesive system will be larger and more isodiametric. These two factors contribute to improved flow properties •To improve the compaction characteristics of the Mix. •To produce uniform mixtures. •To eliminate poor content uniformity. •To produce dust free formulation. •To capture and fuse small quantities of active material. •To control density. http://www.burner.su/aditional/granulation%20theory.pdf
Mechanism of Granulation: Since granulation is very important in the production of tablets and pellets, thus it is very important to know how the granules are formed. Formation of granules requires formation of bonds between powder particles so that they adhere and these bonds must be sufficiently strong to avoid the breakdown of granules to powder in specific handling operations. To form granules, bonds must be formed between powder particles so that they adhere and these bonds must be sufficiently strong to prevent breakdown of the granule to powder in subsequent handling operations. There are FIVE primary bonding mechanisms between particles are- ❶ Adhesion and cohesion forces in the immobile liquid films between individual primary powder particles. ❷ Interfacial forces in mobile liquid films within the granules ❸ The formation of solid bridges after solvent evaporation ❹ Attractive forces between solid particles ❺ Mechanical interlocking http://formulation.vinensia.com/2011/11/granulation-mechanisms-particlebonding.html
Mechanism Forces Additional information Immobile liquid films Adhesional and cohesional forces Between primary particles Mobile liquid films Interfacial forces, capillary pressure Strong bonds, prerequisite for solid bridges Solid bridges Hardening of binders, partial melting or recrystallisation of materials Main mechanism in wet granulation Attractive forces Van der Waals forces, electrostatic forces Does not necessarily need any liquid Mechanical interlocking Often fibrous or flat particles Methods of Granulation Wet Granulation Dry Granulation
1.Adhesion and cohesion forces in immobile films If sufficient liquid is present in a powder to form a very thin and immobile layer, there will be an effective decrease in inter-particulate distance and an increase in contact area between the particles. The bond strength between the particles also increased, as the van der Waals forces of attraction are proportional to the particle diameter and inversely proportional to the square of the distance of separation
•In dry granulation, the pressures used will increase the contact area between the adsorption layers and decrease the inter-particulate distance, and this will contribute to the final granule strength. •Thin, immobile layers may also be formed by highly viscous solutions of adhesives, and so the bond strength will be greater than that produced by the mobile films. http://www.burner.su/aditional/gr anulation%20theory.pdf
2.Interfacial forces in mobile liquid films During wet granulation liquid is added to the powder mix and will be distributed as films around and between the particles. Sufficient liquid is usually added to exceed that necessary for an immobile layer and to produce a mobile film. There are three states of water distribution between particles as shown below: ○ Pendular State: This state usually occurs at low moisture level. In this state the particles are held together by lensshaped rings of liquid. These cause adhesion because of the surface tension forces of the liquidair interface and the hydrostatic suction pressure in the liquid bridge. http://www.burner.su/aditional/granulation%20theory.pdf
○ Funicular State: This state represents an intermediate stage between the pendular and capillary states. When the air start to displace from between the particles, the particles arrange in funicular state. After the funicular state, the particle arrange themselves in capillary state (as shown in the figure in the right side) and there is no air between them. ○ Capillary State: When all the air has been displaced from between the particles the capillary state is reached, and the particles are held by capillary suction at the liquid-air interface, which is now only at the granule surface. Moist granule tensile strength increases about three times between the pendular and the capillary state. It may appear that the state of the powder bed is dependent upon the total moisture content of the wetted powders, but the capillary state may also be reached by decreasing the separation of the particles. This state is the most desirable state in the process of granulation. ○ Droplet State: This is another state in the process but this step is undesirable. This will be important in the process of granulation by spray drying of a suspension. http://www.pharmamanufac turing.com/articles/2008/09 6/
Mechanism…. Agglomeration, granulation and pelletizing processes involve the wetting and mechanical handling of particulates. An open and porous agglomerate structure changes to a more closed and grainlike granule structure as the degree of wetting and mixing is increased. Particulates engineering involves the control of moisture and energy input to achieve a desired change in structural and other properties. Pendular funicular capillary droplet By improving: free floability ease of handling visual appearance ease of compaction Granulation growth Note: These wet bridges are only temporary structures in wet granulation because the moist granules will be dried. They are, however, a prerequisite for the formation of solid bridges formed by adhesives present in the liquid, or by materials that dissolve in the granulating liquid. This is shown in the next mechanism.
3. Formation of Solid bridge After Evaporation: Solid bridges: A solid bridge is formed by adhesives present in the liquid or by materials which dissolve in the granulating liquid. These can be formed by: partial melting hardening binders crystallization of dissolved substances.
Partial melting the pressures used in dry granulation methods may cause melting of low melting-point materials where the particles touch and high pressures are developed. The particlers will bind together and crystallization will take place when the pressure is relieved
• • Hardening binders when an adhesive is included in the granulating solvent, the liquid will form liquid bridges, and the adhesive will harden or crystallize on drying to form solid bridges to bind the particles. Binders like Polyvinylpyrrolidone, Carboxymethylcellulose, starch are common adhesives. Crystallization of dissolved substances The solvent used to mass the powder during wet granulation may partially dissolve one of the powdered ingredients. When the granules are dried, crystallization of this material will take place and the dissolved substance then acts as a hardening binder. The rate of drying of the granules influence the size of the crystals produced in the bridge, larger particle size will occurs if drying time longer/slower. It is therefore important that the drug does not dissolve in the granulating liquid and recrystallize, because it may adversely affect the dissolution rate. http://formulation.vinensia.com/2011/11/granulation-mechanisms-particle-bonding.html
4.Attractive forces between solid particles In the absence of liquids and solid bridges formed by binding agents, there are two types of attractive force that can operate between particles in pharmaceutical systems: • Electrostatic forces • Van der Waals forces These forces significantly increase when grain sizes decrease. • Van der Waals forces are about four orders of magnitude greater than electrostatic and add to the strength of granules produced by dry granulation. The magnitude of these forces will increase as the distance between adjacent surfaces decreases, and in dry granulation this is achieved by using pressure to force the particles together. •Electrostatic forces may be important in causing powder cohesion and the initial formation of agglomerates, e.g. during mixing. In general they do not contribute significantly to the final strength of the granules. http://formulation.vinensia.com/2011/11/granulation-mechanismsparticle-bonding.html
5. Mechanical Interlocking: The mechanical interlocking theory of adhesion states that good adhesion occurs only when an adhesive penetrates into the pores, holes and crevices and other irregularities of the adhered surface of a substrate, and locks mechanically to the substrate. The adhesive must not only wet the substrate, but also have the right rheological properties to penetrate pores and openings in a reasonable time. Adhesion In addition to adsorption, four other mechanisms of adhesion have been proposed. The first, mechanical interlocking, occurs when adhesive flows into pores in the adherend surface or around projections on the surface. The second, interdiffusion, results when liquid adhesive dissolves and diffuses into adherend materials. In the third mechanism, adsorption and surface reaction, bonding occurs... http://formulation.vinensia.com/2011/11/mechanisms-of-granule-formation.html
Mechanisms of Granule Formation: a) Nucleation. Granulation starts with particle-particle contact and adhesion due to liquid bridges. A number of particles will join to form the pendular state. Further agitation densifies the pendular bodies to form the capillary state, and these bodies act as nuclei for further granule growth. b) Transition. Nuclei can grow in two possible ways: either single particles can be added to the nuclei by pendular bridges, or two or more nuclei may combine. The combined nuclei will be reshaped by the agitation of the bed. This stage is characterized by the presence of a large number of small granules with a fairly wide size distribution. c) Ball Growth. If agitation is continued, granule coalescence will continue and produce an unusable, over-massed system, although this is dependent upon the amount of liquid added and the properties of the material being granulated
•Coalescence. Two or more granules join to form a larger granule. •Breakage. Granules break into fragments which adhere to other granules, forming a layer of material over the surviving granule. •Layering. When a second batch of powder mix is added to a bed of granules, the powder will adhere to the granules, forming a layer over the surface and increasing the granule size. •Abrasion Transfer. Agitation of the granule bed leads to the attrition of material from granules. This abraded material adheres to other granules. There are four possible mechanisms of ball growth, which are illustrated in Figure:
Factors Affecting Granulation Methods Liquid Requirement.: High-shear mixers may exhibit a narrow margin between the liquid required to obtain granule growth and the amount that results in an over-wetted mass. Because of the intensive wet massing and densification of the granules, less liquid is normally required with high- than with low-shear mixers . In addition, impeller rotation speed influences the liquid requirements, as does evaporation of the solvent, usually water, in the binder solution. Especially with high-shear mixers, intense agitation results in a temperature rise and loss of solvent by evaporation
Theory of granule formation in general In the first systematic granulation studies in the 1950’s it was assumed, that granules grow by coalescence when limiting moisture content has been reached and after that mechanical agitation modifies granule shape. Modern theories of granulation state, that there are three or four (depending on the source and the grouping of mechanisms) key mechanisms in the granulation process: i. Powder wetting and nucleation ii. Granule coalescence or growth iii. Granule consolidation iv. Granule attrition or breakage Granulation is a complex combination of these subsequent processes.
Conclusion: Granulation is the act or process of forming or crystallizing into grains . it normally commences after initial dry mixing of the necessary powdered ingredients so that a uniform distribution of each ingredient through the mix is achieved.

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granulation mechanism

  • 1. Pharmaceutical Technology II Assignment Mechanism of Granulation Submitted by Shahnaz Jalil-1210657046 Nayela Nabiha Chowdhury1210115046 Hamzah Naquib-1210098046 Tasfin Mostafa-1210830046 Submitted to Dr. Mohammad Shahriare Department of Pharmacy North South University
  • 2. Granulation Process Introduction •Granulation is the process of collecting particles together by creating bonds between them. Bonds are formed by compression or by using a binding agent. •The granulation process combines one or more powder particles and forms a granule that will allow tableting or spheronization process to be within required limits. This way predictable and repeatable process is possible and quality tablets or pellets can be produced using tableting or spheronization equipment. • Granules typically have a size range between 0.2 to 4.0 mm depending on their subsequent use. Granulation refers to the act or process in which primary powder particles are made to adhere to form larger, multi-particle entities called granules. Granules consist of particles formed by the progressive enlargement of primary particles until their original identity is no longer visible. Granules http://www.burner.su/aditional/granulation%20theory.pdf http://www.techceuticals.com/The_Granulation_Process_101.pdf
  • 3. Objective of Granulation: •The objective of granulation process is to combine ingredients to produce a quality tablet. •To prevent segregation of the constituents of the powder mix. Segregation is due to differences in the size or density of the component of the mix. Normally, the smaller and/or denser particles tend to concentrate at the base of the container with the larger and/or less dense ones on the top. An ideal granulation will contain all the constituents of the mix in the correct proportion in each granule and segregation of granules will not occur. •To improve the flow properties of the mix. Many powders are cohesive and have poor flow property because of their small size, irregular shape or surface characteristics. Granules produced from such a cohesive system will be larger and more isodiametric. These two factors contribute to improved flow properties •To improve the compaction characteristics of the Mix. •To produce uniform mixtures. •To eliminate poor content uniformity. •To produce dust free formulation. •To capture and fuse small quantities of active material. •To control density. http://www.burner.su/aditional/granulation%20theory.pdf
  • 4. Mechanism of Granulation: Since granulation is very important in the production of tablets and pellets, thus it is very important to know how the granules are formed. Formation of granules requires formation of bonds between powder particles so that they adhere and these bonds must be sufficiently strong to avoid the breakdown of granules to powder in specific handling operations. To form granules, bonds must be formed between powder particles so that they adhere and these bonds must be sufficiently strong to prevent breakdown of the granule to powder in subsequent handling operations. There are FIVE primary bonding mechanisms between particles are- ❶ Adhesion and cohesion forces in the immobile liquid films between individual primary powder particles. ❷ Interfacial forces in mobile liquid films within the granules ❸ The formation of solid bridges after solvent evaporation ❹ Attractive forces between solid particles ❺ Mechanical interlocking http://formulation.vinensia.com/2011/11/granulation-mechanisms-particlebonding.html
  • 5. Mechanism Forces Additional information Immobile liquid films Adhesional and cohesional forces Between primary particles Mobile liquid films Interfacial forces, capillary pressure Strong bonds, prerequisite for solid bridges Solid bridges Hardening of binders, partial melting or recrystallisation of materials Main mechanism in wet granulation Attractive forces Van der Waals forces, electrostatic forces Does not necessarily need any liquid Mechanical interlocking Often fibrous or flat particles Methods of Granulation Wet Granulation Dry Granulation
  • 6. 1.Adhesion and cohesion forces in immobile films If sufficient liquid is present in a powder to form a very thin and immobile layer, there will be an effective decrease in inter-particulate distance and an increase in contact area between the particles. The bond strength between the particles also increased, as the van der Waals forces of attraction are proportional to the particle diameter and inversely proportional to the square of the distance of separation
  • 7. •In dry granulation, the pressures used will increase the contact area between the adsorption layers and decrease the inter-particulate distance, and this will contribute to the final granule strength. •Thin, immobile layers may also be formed by highly viscous solutions of adhesives, and so the bond strength will be greater than that produced by the mobile films. http://www.burner.su/aditional/gr anulation%20theory.pdf
  • 8. 2.Interfacial forces in mobile liquid films During wet granulation liquid is added to the powder mix and will be distributed as films around and between the particles. Sufficient liquid is usually added to exceed that necessary for an immobile layer and to produce a mobile film. There are three states of water distribution between particles as shown below: ○ Pendular State: This state usually occurs at low moisture level. In this state the particles are held together by lensshaped rings of liquid. These cause adhesion because of the surface tension forces of the liquidair interface and the hydrostatic suction pressure in the liquid bridge. http://www.burner.su/aditional/granulation%20theory.pdf
  • 9. ○ Funicular State: This state represents an intermediate stage between the pendular and capillary states. When the air start to displace from between the particles, the particles arrange in funicular state. After the funicular state, the particle arrange themselves in capillary state (as shown in the figure in the right side) and there is no air between them. ○ Capillary State: When all the air has been displaced from between the particles the capillary state is reached, and the particles are held by capillary suction at the liquid-air interface, which is now only at the granule surface. Moist granule tensile strength increases about three times between the pendular and the capillary state. It may appear that the state of the powder bed is dependent upon the total moisture content of the wetted powders, but the capillary state may also be reached by decreasing the separation of the particles. This state is the most desirable state in the process of granulation. ○ Droplet State: This is another state in the process but this step is undesirable. This will be important in the process of granulation by spray drying of a suspension. http://www.pharmamanufac turing.com/articles/2008/09 6/
  • 10. Mechanism…. Agglomeration, granulation and pelletizing processes involve the wetting and mechanical handling of particulates. An open and porous agglomerate structure changes to a more closed and grainlike granule structure as the degree of wetting and mixing is increased. Particulates engineering involves the control of moisture and energy input to achieve a desired change in structural and other properties. Pendular funicular capillary droplet By improving: free floability ease of handling visual appearance ease of compaction Granulation growth Note: These wet bridges are only temporary structures in wet granulation because the moist granules will be dried. They are, however, a prerequisite for the formation of solid bridges formed by adhesives present in the liquid, or by materials that dissolve in the granulating liquid. This is shown in the next mechanism.
  • 11. 3. Formation of Solid bridge After Evaporation: Solid bridges: A solid bridge is formed by adhesives present in the liquid or by materials which dissolve in the granulating liquid. These can be formed by: partial melting hardening binders crystallization of dissolved substances.
  • 12. Partial melting the pressures used in dry granulation methods may cause melting of low melting-point materials where the particles touch and high pressures are developed. The particlers will bind together and crystallization will take place when the pressure is relieved
  • 13. • • Hardening binders when an adhesive is included in the granulating solvent, the liquid will form liquid bridges, and the adhesive will harden or crystallize on drying to form solid bridges to bind the particles. Binders like Polyvinylpyrrolidone, Carboxymethylcellulose, starch are common adhesives. Crystallization of dissolved substances The solvent used to mass the powder during wet granulation may partially dissolve one of the powdered ingredients. When the granules are dried, crystallization of this material will take place and the dissolved substance then acts as a hardening binder. The rate of drying of the granules influence the size of the crystals produced in the bridge, larger particle size will occurs if drying time longer/slower. It is therefore important that the drug does not dissolve in the granulating liquid and recrystallize, because it may adversely affect the dissolution rate. http://formulation.vinensia.com/2011/11/granulation-mechanisms-particle-bonding.html
  • 14. 4.Attractive forces between solid particles In the absence of liquids and solid bridges formed by binding agents, there are two types of attractive force that can operate between particles in pharmaceutical systems: • Electrostatic forces • Van der Waals forces These forces significantly increase when grain sizes decrease. • Van der Waals forces are about four orders of magnitude greater than electrostatic and add to the strength of granules produced by dry granulation. The magnitude of these forces will increase as the distance between adjacent surfaces decreases, and in dry granulation this is achieved by using pressure to force the particles together. •Electrostatic forces may be important in causing powder cohesion and the initial formation of agglomerates, e.g. during mixing. In general they do not contribute significantly to the final strength of the granules. http://formulation.vinensia.com/2011/11/granulation-mechanismsparticle-bonding.html
  • 15. 5. Mechanical Interlocking: The mechanical interlocking theory of adhesion states that good adhesion occurs only when an adhesive penetrates into the pores, holes and crevices and other irregularities of the adhered surface of a substrate, and locks mechanically to the substrate. The adhesive must not only wet the substrate, but also have the right rheological properties to penetrate pores and openings in a reasonable time. Adhesion In addition to adsorption, four other mechanisms of adhesion have been proposed. The first, mechanical interlocking, occurs when adhesive flows into pores in the adherend surface or around projections on the surface. The second, interdiffusion, results when liquid adhesive dissolves and diffuses into adherend materials. In the third mechanism, adsorption and surface reaction, bonding occurs... http://formulation.vinensia.com/2011/11/mechanisms-of-granule-formation.html
  • 16. Mechanisms of Granule Formation: a) Nucleation. Granulation starts with particle-particle contact and adhesion due to liquid bridges. A number of particles will join to form the pendular state. Further agitation densifies the pendular bodies to form the capillary state, and these bodies act as nuclei for further granule growth. b) Transition. Nuclei can grow in two possible ways: either single particles can be added to the nuclei by pendular bridges, or two or more nuclei may combine. The combined nuclei will be reshaped by the agitation of the bed. This stage is characterized by the presence of a large number of small granules with a fairly wide size distribution. c) Ball Growth. If agitation is continued, granule coalescence will continue and produce an unusable, over-massed system, although this is dependent upon the amount of liquid added and the properties of the material being granulated
  • 17. •Coalescence. Two or more granules join to form a larger granule. •Breakage. Granules break into fragments which adhere to other granules, forming a layer of material over the surviving granule. •Layering. When a second batch of powder mix is added to a bed of granules, the powder will adhere to the granules, forming a layer over the surface and increasing the granule size. •Abrasion Transfer. Agitation of the granule bed leads to the attrition of material from granules. This abraded material adheres to other granules. There are four possible mechanisms of ball growth, which are illustrated in Figure:
  • 18. Factors Affecting Granulation Methods Liquid Requirement.: High-shear mixers may exhibit a narrow margin between the liquid required to obtain granule growth and the amount that results in an over-wetted mass. Because of the intensive wet massing and densification of the granules, less liquid is normally required with high- than with low-shear mixers . In addition, impeller rotation speed influences the liquid requirements, as does evaporation of the solvent, usually water, in the binder solution. Especially with high-shear mixers, intense agitation results in a temperature rise and loss of solvent by evaporation
  • 19. Theory of granule formation in general In the first systematic granulation studies in the 1950’s it was assumed, that granules grow by coalescence when limiting moisture content has been reached and after that mechanical agitation modifies granule shape. Modern theories of granulation state, that there are three or four (depending on the source and the grouping of mechanisms) key mechanisms in the granulation process: i. Powder wetting and nucleation ii. Granule coalescence or growth iii. Granule consolidation iv. Granule attrition or breakage Granulation is a complex combination of these subsequent processes.
  • 20. Conclusion: Granulation is the act or process of forming or crystallizing into grains . it normally commences after initial dry mixing of the necessary powdered ingredients so that a uniform distribution of each ingredient through the mix is achieved.