An electric lab press is a modern laboratory equipment that uses an electric motor to drive the hydraulic system for efficient sample preparation. With its high accuracy and repeatability, it is suitable for various applications, including industrial XRF, hot embossing, laminating, and melting polymers for thin films. The machine operates autonomously, allowing technicians to work on other tasks while it handles the pressing work. It is available in different configurations to suit various laboratory needs, making it an ideal choice for laboratories that require frequent pressing work.
Toggle Categories
Shortcut
Chat with us for quick and direct communication.
Immediately reply on working days (within 8 hours on holidays)
electric lab press
Laboratory Disc Rotary Mixer for Efficient Sample Mixing and Homogenization
Item Number : KTL-7
Manual Lab Hydraulic Pellet Press 12T / 15T / 24T / 30T / 40T
Item Number : PCMP
We have the best ELECTRIC LAB PRESS solutions that are designed to meet the high demands of laboratory research. Our wide range of electric lab presses ensures that we have a solution for every budget and requirement. With programmable controls and the ability to apply precise and consistent pressure, our electric lab presses are ideal for a range of applications in pharmaceuticals, laminating, rubber and plastic molding industries. Our electric lab presses are also perfect for R&D work, testing, short runs, limited production, cell manufacturing, and lean manufacturing. Choose our electric lab press solutions for reliable and consistent results every time.
Our ELECTRIC LAB PRESS is a cost-effective solution that offers a complete customisation service for your specific needs. With a wide range of pressures, from 15 to 200 metric tons, and the ability to accommodate various-sized or customised dies, this press is perfect for industries such as pharmaceuticals, rubber and plastic molding, and laminating.
applications
-
Powder metallurgy
-
Material science research
-
Ceramic and glass sample preparation
-
Quality control testing of electronic components
-
X-ray fluorescence (XRF) sample preparation
-
Pharmaceutical research and development
-
Spectroscopy sample preparation
-
Thin film preparation for electronics and solar cells
-
Geological sample preparation for analysis
-
Food science and testing of food additives.
advantages
-
Faster and more efficient operation compared to manual presses.
-
Accurate and consistent pressing due to programmable controls.
-
Increased safety for the operator since there is no manual pumping required.
-
Suitable for a wide range of laboratory applications including XRF sample preparation, hot embossing, laminating, and melting polymers for thin films.
-
Available in various tonnage configurations to suit different sample requirements.
-
Can operate autonomously, allowing the technician to focus on other tasks.
-
Ideal for frequent pressing work due to their ease of use and consistency.
FAQ
How do electric laboratory presses work?
Electric laboratory presses typically consist of a motor-driven ram or piston that applies force to a sample through a platen or die. The electric motor is controlled by a control panel, allowing the user to set and adjust the desired force and speed. The sample is placed between the platens, and as the motor drives the ram, the force is applied, exerting pressure on the sample. This controlled pressure enables various processes such as compression testing, powder compaction, sample preparation, and material synthesis.
What are the advantages of using electric laboratory presses?
Electric laboratory presses offer several advantages over manual or hydraulic presses. The electric motor provides precise control over the applied force, allowing for accurate and repeatable results. They offer adjustable speed and force settings, making them versatile for different applications and materials. Electric presses are generally quieter, cleaner, and more energy-efficient compared to hydraulic systems. Additionally, they eliminate the need for hydraulic fluid and associated maintenance. Electric presses also have a smaller footprint, making them suitable for laboratory environments with limited space.
What are the applications of electric laboratory presses?
Electric laboratory presses find applications in a wide range of scientific and industrial settings. They are commonly used for compression testing of materials, including polymers, metals, ceramics, and composites. These presses are also employed in powder compaction processes, such as tabletting in pharmaceutical manufacturing or the preparation of powdered samples for analysis. Electric presses are used for material synthesis, such as the formation of thin films or the fabrication of electrodes. Additionally, they are utilized in research and development for sample preparation, sample extrusion, and various other processes that require precise application of force and pressure.
What considerations should be taken when selecting an electric laboratory press?
Several factors should be considered when selecting an electric laboratory press. The required force capacity should match the specific application and the maximum force expected. The platen size should accommodate the sample size and shape. The speed range and control options should align with the desired testing or processing requirements. It is important to ensure the press is constructed from durable materials and designed for long-term use. Safety features, such as emergency stop buttons and protective shields, should be evaluated. Additionally, the availability of accessories, such as different platens or heating options, can be crucial for specific applications.
REQUEST A QUOTE
Our professional team will reply to you within one business day. Please feel free to contact us!
Related Articles
Basic Laboratory Culture Equipment
Overview of essential laboratory equipment for biological and microbiological research.
Read more
Basic Laboratory Centrifuge Equipment
Overview of different types of centrifuges used in laboratories.
Read more
Basic Mixing Equipment in the Laboratory
Overview of essential laboratory mixing devices and their functionalities.
Read more
Sample Preparation Methods in X-ray Fluorescence and Their Impact on Test Results
Explores the tablet and melting methods in X-ray fluorescence, detailing their advantages, disadvantages, and key considerations.
Read more
Manual Lab Hydraulic Pellet Press: Comprehensive Guide to High-Quality Pellet Preparation
Explore the detailed guide on using a Manual Lab Hydraulic Pellet Press for high-quality pellet preparation in spectral analyses. Learn about features, operation, and maintenance for optimal performance.
Read more
Electric Lab Cold Isostatic Press (CIP): Applications, Benefits, and Customization
Explore the versatile world of Electric Lab Cold Isostatic Press (CIP) technology. Learn about its applications in various industries, benefits, and customization options for tailored solutions.
Read more
Why Most PELLET PRESS XRF SAMPLE PREPARATION Fail: Common Issues and Solutions
Discover the common pitfalls in PELLET PRESS XRF SAMPLE PREPARATION and learn effective solutions to ensure accurate results. Covers particle size, contamination, binder choice, and more.
Read more
Manual Hydraulic Presses for Laboratory Use: A Comprehensive Guide
Explore the intricacies of manual hydraulic presses in labs, including operation, benefits, and comparison with automatic models. Ideal for those seeking detailed insights on sample preparation and cost-effectiveness.
Read more
Mastering XRF Sample Preparation: 7 Proven PRESS Strategies for Optimal Results
Elevate your XRF analysis with 7 advanced PRESS strategies. Learn expert tips for successful XRF pellet pressing, optimal sample preparation, and consistent results.
Read more
Hydraulic Heated Lab Pellet Press: Comprehensive Guide to Selection and Usage
Explore the features and applications of hydraulic heated lab pellet presses. Learn how to choose the right model for your research needs and maximize efficiency in material science labs.
Read more
Manual Pellet Press: A Comprehensive Guide to Efficient Lab Pelletizing
Explore the intricacies of manual pellet presses, including operation, safety, and maintenance tips. Learn how to choose the right press, understand force gauges, and optimize pellet quality for your lab experiments.
Read more
Hydraulic Tablet Press: Comprehensive Guide to Design, Operation, and Applications
Explore the advanced features, operational principles, and diverse applications of hydraulic tablet presses in various industries. Learn how these machines ensure high-quality tablet production with detailed insights.
Read more
Automatic Hydraulic Press: The Ultimate Guide for Efficient Sample Preparation and Industrial Processes
Discover the world of automatic hydraulic presses, from their versatile applications in industrial XRF and laboratory sample manipulation to their role in large-scale manufacturing, hot embossing, laminating, and polymer melting. Learn about their benefits, features, and how they revolutionize sample preparation and industrial processes.
Read more
Warm Isostatic Pressing: An Advanced Manufacturing Technology
Warm Isostatic Pressing (WIP) is a cutting-edge technology that enables isostatic pressing at a temperature that does not exceed the boiling point of the liquid medium. It is a variant of cold isostatic pressing (CIP) that includes a heating element.
Read more
Determining Optimal Pressure for XRF Pellet Pressing
The process of XRF pellet pressing involves applying pressure to a sample to create a solid pellet that can be analyzed by an X-ray fluorescence (XRF) spectrometer. Optimal pressure is crucial for achieving accurate and reliable results in XRF analysis.
Read more
Everything You Need to Know About FTIR Pellet Press
Fourier Transform Infrared (FTIR) spectroscopy is a non-destructive analytical technique used to identify and quantify the chemical composition of a sample. FTIR pellet presses are used to prepare solid samples for FTIR analysis by compressing them into pellets.
Read more
FTIR Pellet Press The Game-Changer in Spectroscopy Analysis
Fourier Transform Infrared Spectroscopy (FTIR) is a widely used analytical technique in the field of chemistry and materials science. It is a non-destructive method that allows the identification and quantification of chemical compounds in a sample.
Read more
FTIR Pellet Press The Ultimate Solution for Precise Sample Preparation
Fourier Transform Infrared (FTIR) spectroscopy is a powerful analytical technique that can be used to identify and quantify the chemical components of a sample. However, to obtain accurate and reliable results, it is crucial to prepare the sample appropriately.
Read more
Comprehensive Overview of Cold Isostatic Pressing Services
Cold Isostatic Pressing (CIP) services play a crucial role in various industries, providing solutions for sterilization and compacting powders. These services offer a wide range of capabilities, ensuring the highest quality and efficiency.
Read more
How FTIR Pellet Press Works in Sample Preparation for Spectroscopy Analysis
FTIR (Fourier Transform Infrared) spectroscopy is a powerful analytical technique for identifying and characterizing chemical compounds based on their infrared absorption spectra.
Read more