Bilcare optimizes its package design and development process using plastic thermoforming simulation
To select the right barrier packaging material and optimize the package design and processes, we were able to rule out the traditional trial and error method by adopting scientific methods like Bilcare OptimaTM and advanced package design services with PAM-FORM.Samir BagalkoteAssistant Manager, Research & Development Bilcare Research
Due to their ease of production, low cost and high performance, thermoformed plastic blisters are widely used to package pharmaceutical dosages. However, thermo-formed parts are generally not uniform in thickness. Non-uniform thickness and thinning in the corners of the container are major limitations of thermoforming.
Because of stringent regulatory and extended stability requirements, the packaging of new and existing pharmaceutical products is increasingly demanding on moisture barrier. Therefore if a change of packaging material is to be considered, the challenge is to respect efficiency, cost and environmental concerns by providing sufficient water vapor barrier at an acceptable cost
Predicting the thickness distribution with simulation
Bilcare has developed a scientific packaging development method which is first of its kind globally called BilcareOptimaTM. This method studies the degradation profile of the drug formulation and thereby determines the barrier property required in the package to protect the product during its shelf life and thus define the most optimal packaging (packaging material) for the product.
Developing a bottle or pouch packaging for pharmaceutical dosages is straight forward, but developing a blister packing option is more challenging as packaging material undergoes heavy deformation during the forming process which affects the barrier properties. The barrier properties of thermoformed blister are directly associated with the thickness distribution of plastic film after the cavity formation.
The thickness distribution throughout the blister is based on the thickness of the base film, die design and thermoforming conditions.
The different parameters like forming temperature, pressure/vacuum range, visco-elastic deformation properties of plastic material, die geometry, contact and friction between the blank and die, have a direct effect on wall thickness distribution in thermoformed blister. Thus, it is important to predict the wall thickness distribution on the blister cavity formation of the barrier films to determine the barrier property of the final blister pack.
Validating virtually the blister cavity and the packaging film selection
We are able to develop a system to predict the thinning profile on blister formation and the barrier property using PAM-FORM which systematically studies the physical, mechanical and thermal properties and behavior of the film during its cavity formation process. With PAM-FORM we're able to predict this behavior more accurately with great flexibility and user friendliness, all of which has helped us speed up our process.Samir Bagalkote
The main objective is to develop a system which can predict the wall thickness distribution and change it in barrier properties of polymeric films after thermoforming to a blister pocket, with respect to material properties, cavity design and processing parameter. This information will also be used to develop a benchmark for deciding the optimal blister cavity design.
The film visco-elastic deformation behavior is validated based on comparison of the experimental and simulated stress-strain data at various temperature and strain rates.
In the standard process, a preheated plastic sheet is clamped on the mold with the help of a blank holder and pressure or vacuum is progressively applied.
ESI PAM-FORM performs the forming simulation in a 3D virtual environment and the post processor produces a unique topography of thickness, stress-strain distribution, forming zones, etc. in the thermoformed pocket.
The difference between the predicted and experimental results shows the accuracy of the simulation method: the correlation between the experimental results and the simulation is validated.
For blister design and assessment of formability and barrier properties, Bilcare Research uses PAM-FORM to validate the changes made in blister cavity design, initial film thickness and thermoforming process parameters.
Results are very encouraging and give Bilcare Research immense confidence in trying new designs and materials which will bring productivity enhancements in the pharmaceutical business
We have used scientific CAE tools for almost a decade, but switching in 2008 from the earlier tool to ESI’s software PAM-FORM brought significant improvement in terms of accuracy and speed.Dr. Ajith SashidharanVP, US Operation & Global Research Bilcare Inc.
About Bilcare LTD
Bilcare Research is a leading full-service provider in the field of pharmaceutical packaging. As a global supplier with single-source capabilities, Bilcare offers a comprehensive range of pharmaceutical packaging solutions, from product-specific research to brand-building materials and design. With more than 500 employees, and 50% of the workforce based outside of India, Bilcare’s operations are spread over 4 continents with more than 500 pharma customers globally.
For more information visit Bilcare