Polymerization Reaction Measuring | Methods & Techniques in Polymer Chemistry

Polymerization Reactions

Methods and Techniques to Develop Synthetic Polymer Chemistry

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Polymerization Reaction Definition
Types of Polymerization Reactions
Measure Polymerization Reactions
ABC Triblock Copolymer Development Case Study
ReactIR Ready
Novel Silicone Synthesis via Polymerization
SIlicone Polymerization

Technology for Understanding Polymerization Reactions
Reactors for Polymerization Reactions

Aplikasi

Applications Related to Polymerization Reactions

Chemical Reaction Kinetics
Understanding Reaction Rates and Factors That Affect Them

Chemical reaction kinetics, also known as reaction kinetics, reflect rates of chemical reactions. Learn how reaction kinetic studies provide enhanced insight into reaction mechanisms.

Chemical Process Development & Scale-Up
Creating Safe, Efficient Processes from Lab to Plant

Chemical Process Development and Scale-Up guides the development of a commercially important molecule from synthesis in the lab to large scale manufacture of a quality product.

Heat Transfer and Process Scale-up
How Heat Transport in Agitated Vessels Affects Process Scale-up

Scaling up a chemical process from lab to manufacturing gives useful results only with accurate heat transfer coefficients. Measuring the jacket and reactor temperature (during the release of a well-defined amount of heat) allows researchers to accurately compute the thermal resistance, which is used to model the heat transfer and make critical predictions for reactors at larger scale. Reaction calorimetry is essential to determine parameters that impact the heat transfer and the heat transfer coefficients, to develop models to maximize the bandwidth of a manufacturing plant.

Mixing and Mass Transfer
Mixing in a Chemical Reactor and the Effect on Reaction Kinetics and Scale-up

Mixing is the reduction or elimination of inhomogeneity of phases that are either miscible or immiscible. Process scale-up and optimization require that the impact of mixing on the reaction rate be quantified. Automated, controlled experiments can be run in parallel in a laboratory reactor system to establish a mass transfer correlation, and provide a means to quickly adjust the gas/ liquid interface area and reactor volume. This achieves the desired conditions required for the scale-up or scale-down of a process.

Proses kimia yang berkelanjutan
Reduce Cycle Time, Increase Quality and Yield With Flow Chemistry

Reduce Cycle Time, Increase Quality and Yield With Continuous Flow Chemistry

Keselamatan Proses Kimia
Deteksi Dini Risiko Termal dan Rancang Keselamatan dalam Proses Kimia

Deteksi Dini Risiko Termal dan Rancang Keselamatan dalam Proses Kimia

Process Analytical Technology (PAT)/Quality by Design (QbD)
Lacak Parameter Proses Kritis dan Atribut Kualitas Kritis Untuk Memudahkan Quality by Design (QbD) dalam Industri Bio-Farmasi.

Lacak Parameter Proses Kritis dan Atribut Kualitas Kritis Untuk Memudahkan Quality by Design (QbD) dalam Industri Bio-Farmasi.

Control Residual Isocyanate
Process Analytical Technology for Continuous Measurement of NCO

Isocyanates are critical building blocks for high performance polyurethane-based polymers that make up coatings, foams, adhesives, elastomers, and insulation. Concerns over exposure to residual isocyanates led to new limits for residual isocyanates in new products. Traditional analytical methods for measuring the residual isocyanate (NCO) concentration using offline sampling and analysis raise concerns. In situ monitoring with process analytical technology addresses these challenges and enables manufacturers and formulators to ensure that product quality specifications, personnel safety, and environmental regulations are met.

Key Syntheses in Pharmaceutical and Polymer Chemistry

Compounds containing fluorine are important in pharmaceutical and polymer industry applications. Fluorination chemistry occurs when a fluorine atom is introduced into an organic compound. The nature of the substrate molecule, the type of fluorine source and reaction conditions control the kinetics, thermodynamics and overall safety of a fluorination reaction. Fluorinations can be very energetic and specificity can be difficult to control. For this reason, understanding these reactions from a kinetics and thermodynamic perspective is critical to ensuring yield, quality and safety. For these reasons, in situ spectroscopy, automated sampling, and automated laboratory reactors are invaluable technologies for reactions that use fluorine or fluorine compounds for to perform fluorinations.

Chemical Reaction Kinetics

Chemical reaction kinetics, also known as reaction kinetics, reflect rates of chemical reactions. Learn how reaction kinetic studies provide enhanced insight into reaction mechanisms.

Chemical Process Development & Scale-Up

Chemical Process Development and Scale-Up guides the development of a commercially important molecule from synthesis in the lab to large scale manufacture of a quality product.

Heat Transfer and Process Scale-up

Scaling up a chemical process from lab to manufacturing gives useful results only with accurate heat transfer coefficients. Measuring the jacket and reactor temperature (during the release of a well-defined amount of heat) allows researchers to accurately compute the thermal resistance, which is used to model the heat transfer and make critical predictions for reactors at larger scale. Reaction calorimetry is essential to determine parameters that impact the heat transfer and the heat transfer coefficients, to develop models to maximize the bandwidth of a manufacturing plant.

Mixing and Mass Transfer

Mixing is the reduction or elimination of inhomogeneity of phases that are either miscible or immiscible. Process scale-up and optimization require that the impact of mixing on the reaction rate be quantified. Automated, controlled experiments can be run in parallel in a laboratory reactor system to establish a mass transfer correlation, and provide a means to quickly adjust the gas/ liquid interface area and reactor volume. This achieves the desired conditions required for the scale-up or scale-down of a process.

Proses kimia yang berkelanjutan

Reduce Cycle Time, Increase Quality and Yield With Continuous Flow Chemistry

Keselamatan Proses Kimia

Deteksi Dini Risiko Termal dan Rancang Keselamatan dalam Proses Kimia

Process Analytical Technology (PAT)/Quality by Design (QbD)

Lacak Parameter Proses Kritis dan Atribut Kualitas Kritis Untuk Memudahkan Quality by Design (QbD) dalam Industri Bio-Farmasi.

Control Residual Isocyanate

Isocyanates are critical building blocks for high performance polyurethane-based polymers that make up coatings, foams, adhesives, elastomers, and insulation. Concerns over exposure to residual isocyanates led to new limits for residual isocyanates in new products. Traditional analytical methods for measuring the residual isocyanate (NCO) concentration using offline sampling and analysis raise concerns. In situ monitoring with process analytical technology addresses these challenges and enables manufacturers and formulators to ensure that product quality specifications, personnel safety, and environmental regulations are met.

Compounds containing fluorine are important in pharmaceutical and polymer industry applications. Fluorination chemistry occurs when a fluorine atom is introduced into an organic compound. The nature of the substrate molecule, the type of fluorine source and reaction conditions control the kinetics, thermodynamics and overall safety of a fluorination reaction. Fluorinations can be very energetic and specificity can be difficult to control. For this reason, understanding these reactions from a kinetics and thermodynamic perspective is critical to ensuring yield, quality and safety. For these reasons, in situ spectroscopy, automated sampling, and automated laboratory reactors are invaluable technologies for reactions that use fluorine or fluorine compounds for to perform fluorinations.

Publikasi

Publications Related to Polymerization Reactions

On-Demand Webinars

Professor Robson Storey - University of Southern Mississippi
Real-time in situ mid-infrared monitoring of polymerization reactions involving isobutylene and styrene is the focus of this presentation. Professor R...
Polymerization Process Monitoring
This presentation discusses polymerization process monitoring and how the value of real-time in situ Fourier Transform Infrared (FTIR) spectroscopy co...
Improve Emulsion Stability
Particle or droplet size is critical to improve the stability of emulsions and liquid formulations. Ideally, scientists and engineers accelerate their...
Kalorimetri Reaksi pada Industri Pemrosesan Kimia
Webinar ini berfokus pada aplikasi dan pentingnya pencampuran dan kalorimetri reaksi dalam industri pemrosesan kimia. Sejumlah studi kasus tentang das...

Additional Resources

Control Residual Isocyanate
Isocyanate are the most critical building blocks for the performance polyurethane-based polymers that make up coatings, foams, adhesives, elastomers,...
Mechanistic Insights to Reactions
Two recently published chemical reaction kinetics studies examples are introduced from researchers at Bristol-Myers Squibb, Scripps, and University of...
Transpor Panas dalam Bejana Teragitasi
Dalam industri farmasi dan kimia, reaktor batch atau semi-batch penting dalam proses produksi. Penskalaan proses dari lab ke fasilitas produksi adalah...
In Situ Monitoring of Chemical Reactions
'Bagaimana melakukan lebih dengan sumber daya yang terbatas' adalah topik yang terus-menerus dibahas di laboratorium pengembangan kimia karena penelit...
Particle Size Analysis for Process Optimization
This white paper introduces some of the most common particle size analysis approaches and how they can be deployed for the effective delivery of high...
Studi Desain Eksperimen Yang Efektif
Makalah ini menjelaskan pendekatan Desain Eksperimen (DoE) dan bagaimana pendekatan ini digunakan untuk mengidentifikasi relasi antar parameter, menen...

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Products for Measuring Polymerization Reactions