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Page 104 of 263 results
Product Name | Expected Price | Dispatch Time | Discount |
---|---|---|---|
Hercuvan TT-100H-110V Thermo Shaker Incubator 300-1600 rpm | ₹169,999.00 | 10 days | -- |
Hercuvan TT-100C Thermo Shaker Incubator 300-1500 rpm | ₹279,999.00 | 10 days | -- |
Hercuvan TT-60-SI 220VAC Shaking Incubator 50-300 rpm | ₹299,999.00 | 10 days | -- |
Hercuvan TT-60-SI 110VAC Shaking Incubator 50-300 rpm | ₹299,999.00 | 10 days | -- |
Hercuvan TT-3000 Smart Mixer 300 - 3000 rpm AC 100-240V | ₹119,999.00 | 10 days | -- |
Hercuvan TT-2500-VM Multi-Tube Vortex Mixer 500-2500 rpm | ₹199,999.00 | 10 days | -- |
Hercuvan GS-B4830 Block for Gradient Touch Thermal Cycler 48 x 0.2 ml + 30 x 0.5 ml | ₹339,999.00 | 10 days | -- |
Hercuvan GS-B482 Block for Gradient Touch Thermal Cycler 2 x 48 x 0.2 ml | ₹339,999.00 | 10 days | -- |
Hercuvan GS-B384 Block for Gradient Touch Thermal Cycler 384 x 0.02 ml | ₹339,999.00 | 10 days | -- |
Hercuvan GS-B962 Block for Gradient Touch Thermal Cycler 96 x 0.2 ml | ₹289,999.00 | 10 days | -- |
Laboratory equipments plays a vital role in scientific research, experimentation, and analysis. From beakers and test tubes to advanced analytical laboratory instruments, these tools are the backbone of any laboratory setting. They enable scientists, researchers, and students to conduct experiments, gather data, and make groundbreaking discoveries. This equipment encompasses a wide range of items, each designed for specific purposes and experiments. Basic equipment like glassware (beakers, flasks, and test tubes) and measuring tools (pipettes, graduated cylinders) are essential for conducting routine experiments and measuring precise quantities of liquids or substances. These tools form the foundation of scientific investigations and provide the means to mix, heat, and observe chemical reactions.
When it comes to laboratory equipment, regular calibration is of utmost importance to ensure accurate and reliable results. Calibration plays a crucial role in maintaining the integrity of scientific experiments and analysis.
These are key reasons why regular calibration of laboratory equipment is essential:
Ensures Accuracy: Calibration guarantees that laboratory equipment, such as laboratory-glassware, lab utilities, and laboratory-plasticware, functions with precise accuracy, minimizing measurement errors.
Quality Control: Regular calibration acts as a quality control measure, verifying that lab instruments and laboratory apparatus meet the required standards for scientific research and experimentation.
Reliable Results: Calibrating lab equipment ensures consistency and reproducibility of results, allowing scientists and researchers to have confidence in their findings and draw meaningful conclusions.
Compliance with Standards: Calibration helps laboratories adhere to industry and regulatory standards, ensuring that lab machinery and equipment are in line with the established guidelines.
Minimizes Errors: Regular calibration minimizes systematic errors that can occur due to instrument drift, variations in environmental conditions, or wear and tear, thus improving the overall reliability of laboratory experiments.
Remember, routine calibration of laboratory equipment is vital for accurate measurements, consistent results, and adherence to quality standards. By ensuring the accuracy and reliability of lab instruments, researchers can confidently advance scientific knowledge and contribute to groundbreaking discoveries.
When working with laboratory equipment, it is crucial to prioritize safety to prevent accidents, protect personnel, and maintain the integrity of experiments. Adhering to proper safety precautions when handling lab equipment, including laboratory-glassware, lab-utilities, and laboratory- plasticware, is essential.
These are some key safety measures to consider:
Personal Protective Equipment (PPE):
a. Wear appropriate PPE, including safety goggles, lab coats, gloves, and closed-toe shoes, to protect against chemical splashes, spills, and potential hazards.
Proper Handling and Storage:
a. Handle lab instruments and apparatus with care to avoid breakage or damage.
b. Store equipment safely in designated areas to prevent accidents and maintain organization.
Chemical Handling:
a. Follow established protocols for handling chemicals, including using proper containment and ventilation systems.
b. Store chemicals according to their compatibility and ensure proper labeling.
Equipment-Specific Precautions:
a. Familiarize yourself with the operating instructions and safety guidelines for specific lab-equipment.
b. Ensure proper installation, setup, and maintenance of equipment to avoid malfunctions and potential risks.
Emergency Preparedness:
a. Be aware of the location and proper use of safety equipment, such as fire extinguishers, emergency showers, and eyewash stations.
b. Develop and practice evacuation procedures in case of emergencies.
By following these safety precautions, laboratory personnel can minimize risks, maintain a safe working environment, and prevent accidents or injuries while handling laboratory equipment.
Find a wide range of laboratory equipment, including laboratory-glassware, lab-utilities, laboratory-plasticware, laboratory-instruments, laboratory apparatus, lab-machinery, and other laboratory equipment supplies, at the website.
These are some key sources that offer training and education on the proper use and maintenance of laboratory equipment, including laboratory-glassware, lab-utilities, and laboratory plasticware:
Educational Institutions:
a. Universities, colleges, and vocational schools often offer laboratory courses and programs that include training on equipment usage and maintenance.
b. Academic institutions have dedicated laboratory facilities and experienced faculty who provide hands-on training to students.
Equipment Manufacturers and Suppliers:
a. Manufacturers and suppliers of lab machinery/ equipment often offer training programs or resources to educate users about the proper handling, operation, and maintenance of their specific equipment.
b. They may provide instructional materials, user manuals, online tutorials, or even on-site training sessions.
Industry Associations and Organizations:
a. Professional associations and organizations related to specific scientific fields often organize training workshops, seminars, or conferences that cover laboratory equipment usage and maintenance.
b. These events bring together experts and industry professionals who share their knowledge and best practices.
Online Resources and Webinars:
a. Numerous online platforms offer training courses, webinars, and video tutorials on lab apparatus/ equipment usage and maintenance.
b. These resources provide convenient and accessible training options, allowing individuals to learn at their own pace.
In-house Training Programs:
a. Research institutions, laboratories, and companies with extensive laboratory facilities may have in-house training programs to ensure their staff members are proficient in using and maintaining laboratory equipment.
b. These programs are tailored to the specific equipment and protocols used within the organization.
Obtaining proper training and education on the use and maintenance of laboratory equipment is crucial for promoting safety, accuracy, and efficiency in scientific research and experimentation. Check out our range of equipment and also visit our section of laboratory equipment supplies.
Regular assessment and timely replacement or upgrading of laboratory equipment are crucial to maintaining the accuracy, reliability, and efficiency of scientific experiments and analyses.
These are key factors to consider when determining if laboratory equipment, including laboratory glassware, and laboratory-plasticware, should be replaced or upgraded:
Age and Wear:
a. Evaluate the age of the lab apparatus and assess its condition for signs of wear and tear, deterioration, or damage that may affect its performance.
b. Consider replacing equipment that has exceeded its expected lifespan or shows significant degradation.
Calibration and Accuracy:
a. Monitor the calibration and accuracy of laboratory instruments over time.
b. If equipment consistently fails to meet calibration standards or exhibits declining accuracy, it may be time to consider replacement or upgrading.
Technological Advances:
a. Keep abreast of technological advancements and new features available in laboratory equipment.
b. Upgrading to newer models or technologies may offer enhanced functionality, increased efficiency, and improved data quality.
Changing Research Needs:
a. Assess if the existing equipment meets the evolving research requirements and demands.
b. If the current equipment does not support new methodologies or experimental protocols, upgrading or replacing it may be necessary.
Safety and Compliance:
a. Regularly review safety guidelines and regulatory requirements related to laboratory equipment.
b. If equipment no longer meets safety standards or compliance regulations, replacement or upgrading may be necessary to ensure the well-being of personnel and adherence to regulations.
Cost-effectiveness:
a. Evaluate the cost of repairs, maintenance, and downtime associated with ageing or unreliable equipment.
b. If the cumulative costs of maintaining outdated equipment outweigh the benefits, it may be more cost-effective to invest in new equipment.