Laboratory Testing Machine

Why Choose Us

 

Kelinan has inherited the original team and products of Wuxi Yabo Textile Equipment Co., Ltd., with more than 20 years of production experience, and has been committed to the dyeing machine industry, making a perfect combination from laboratory equipment to large-scale equipment in the production workshop.


Wide Product Range
Overflow dyeing machine, laboratory dyeing machine, drying and setting machine, physical testing equipment.


Large Scale
Our factory is divided into two parts: the laboratory equipment production factory is in Wuxi City, Jiangsu Province, covering an area of 1,800 square meters and with more than 30 people in the workshop. The large-scale dyeing machine production factory is located in Zibo City, Shandong Province, covering an area of 15,000 square meters and with more than 70 people in the workshop.


Wide Range of Applications
Our products are widely used in textile factories, dyeing and finishing factories, dye factories, auxiliary factories, fabric trading companies, research institutes, etc.


Advanced Equipment
We have professional production equipment such as laser machine, bending machine, automatic welding machine, rolling machine, automatic polishing machine, fully automatic pipe bending machine, laser pipe cutting machine.

What is Laboratory Testing Machine

 

 

Laboratory tests often require at least one piece of sample preparation or laboratory testing equipment. Examples of testing and sample preparation equipment include Purge-and-Trap Autosamplers, Microwave Reaction Systems, Food-Grade CO2 Analysis machines, Pipette Controllers and Sample Extraction systems. If you want to know the specifications and prices of Laboratory Testing Machine, please contact us!

 

Advantages of Laboratory Testing Machine

 

 

Boost Staff Efficiency & Reduce Human Error
Adopting automation reduces repetitive manual labor and allows labs to upgrade their job roles. By automating repetitive and time-consuming tasks, laboratory professionals can focus on more complex activities, leading to higher productivity. By improving lab productivity, automation has the potential to lessen the laboratory workforce need, which helps manage staffing shortages.


Improve Productivity, Efficiency, & TAT
Laboratory automation can streamline workflow and increase sample throughput, which decrease turnaround time (TAT). Interfacing EHRs and analyzers with a laboratory information system (LIS) automates the total testing process and facilitates automated, rapid delivery of patient reports.


Improve Lab Safety
Automation can improve laboratory safety from both patient care and lab staff perspectives. Eliminating the errors associated with humans performing repetitive tasks improves TAT and test accuracy. That same elimination can reduce injuries caused by repetitive motions (e.g., carpal tunnel syndrome, wrist pain). For example, with automation equipment, staff might touch a specimen only once and the system manages the rest of the process.


Optimize Test Quality & Accuracy
There will always be variability in quality when humans perform tasks. Because of this, the laboratory has long realized the benefits of standardization. Automation equipment allows for the tracking of all steps of a process, minimizes manual errors, and improves the precision and accuracy of testing. This standardization in turn improves the quality and accuracy of test results.


Enable Efficient Specimen Tracking
Automation can minimize manual steps for specimen storage and retrieval. It can also provide quick access to samples that need further testing. Some automated systems can archive samples in trays that are then manually taken to storage, and some automated systems can automate the delivery and retrieval of specimens to and from storage.


Versatility
Multi-Functional: A Laboratory Testing Machine for Tensile Test can conduct a wide range of tests, making it a highly versatile tool in both research and industrial settings. It can test materials under different loading conditions, including tensile, compressive, and flexural loads.
Wide Range of Materials:Laboratory Testing Machines for Tensile Test can test various materials such as metals, polymers, textiles, rubber, and composites, making it an essential tool across multiple industries.


High Precision and Accuracy
Accurate Measurements: Laboratory Testing Machine are designed to provide highly accurate measurements of material properties like tensile strength, yield strength, and elongation at break. This accuracy is critical in ensuring the reliability and safety of materials used in manufacturing and construction.
Consistent Results: Laboratory Testing Machines for Tensile Test are equipped with advanced load cells and extensometers that ensure consistent and repeatable test results, which is essential for quality control and material certification.


User-Friendly Interface
Ease of Operation: Modern Laboratory Testing Machines come with user-friendly software interfaces that allow operators to easily set up tests, monitor progress, and analyze results. This reduces the learning curve and allows for efficient operation even by less experienced technicians.
Automation Capabilities: Many Laboratory Testing Machines offer automation features that enable the machine to run tests with minimal manual intervention, increasing productivity and reducing the likelihood of human error.

 

Types of Laboratory Testing Machine

Color Washing Fastness Tester

The washing color fastness test is used to test the washing color fastness, dry washing color fastness, rinsing color fastness, washing powder performance, and other washing and dry cleaning fastness properties of various textiles. Anyways, most of the textile products would be washed.
Consumers can judge products based on the durability of fabric colors. If the product color has good fastness, the fabric quality is high and vice versa, if the product color has poor colorfastness, the fabric quality is poor.

Rubbing Color Fastness Tester

Crockmeter/rubbing fastness tester is an instrument that provides a quick and accurate method to determine the amount of color transferred from textile materials such as fabric, carpeting, yarn, and leather to other surfaces by rubbing.
By testing for color fastness, manufacturers can guarantee that their fabrics will not bleed or transfer color during normal use. Fabrics that retain their color enhance the overall customer experience and reduce returns and complaints.

Color Matching Cabinet

Colour Matching Cabinet (CMC), also known as Colour Matching Box, is pivotal in achieving this high level of precision. These devices are designed to simulate different lighting environments to ensure that colours remain consistent regardless of the light under which they are viewed.
Grouping objects by colour, size or shape is a developmental milestone for cognition – which is learning, thinking and problem solving. Sorting and matching things helps develop visual perceptual skills, thinking and memory skills. These important brain skills help with attention and problem-solving.

 

Rubbing Color Fastness Tester

How to Choose Laboratory Testing Machine

Consider the Type of Tester
Common colourfastness testers include abrasion, rubbing and burning methods, so you need to choose the right tester for your specific needs.


Determine the Test Specification
Different test specifications will affect the test results and test time, so you need to determine the test specification according to the actual situation.


Understand the Testing Standards
Each industry has different testing standards, you need to understand and choose a tester that meets the requirements of the industry.


Confirm the Accuracy of the Test Instrument
A good quality test instrument should have a high precision sensor and a stable measurement system, you can confirm the accuracy of the test instrument by checking the relevant documents or conducting tests.

 

Pay Attention to Maintenance
Test instruments require regular maintenance and servicing, and choosing a test instrument that is easy to maintain and service can save time and costs.


Choose a test instrument with data storage function
The data storage function can record the test results and facilitate subsequent access, which can improve work efficiency.

Pay Attention to the Test Range

 

Different testers have different test ranges and you need to choose the right one according to your needs.

Consider the Ease of Use

 

Easy-to-use testers can improve efficiency and test accuracy, so consider the ease of use and choose the right testers.

Choose a Brand With Good After-Sales Service

Some test instruments need to be used for a long time, and choosing a brand with good after-sales service can provide better service and support.

Consider Price

 

Price is an important consideration. You need to weigh up the relationship between price and performance and choose the most suitable test instrument for you.

 

How to Maintain Laboratory Testing Machine
 

Cleanliness
One of the easiest ways to keep your lab equipment maintained is to keep everything clean and sanitary. Surprisingly, many labs overlook this important task. To keep your equipment and your lab in great shape, it is important to wipe down the exterior of all equipment each day and do a thorough, detailed cleaning at least once a week. Some types of equipment will need to be cleaned using a specific cleaning process. Be sure to consult each lab equipment's manual to ensure they are cleaned properly.

 

Calibration
Another tip for maintaining equipment is to ensure they stay calibrated. Failure to do this regularly can corrupt your data and lead to inaccuracies in your experiments. Calibration can range from basic preventive maintenance to advanced accuracy verification procedures. When you keep up with the calibration of your equipment on a regular basis, you will hardly ever need more than quick preventive maintenance to get back up and running.

 

Repairing
If any of your equipment is not working properly or providing accurate results during your experiments, it is important to have that piece repaired or replaced in a timely manner. Many types of lab equipment can be salvaged by replacing simple parts or repairing necessary components. The earlier you fix an issue with your equipment, the less likely you will need to fully replace it.

 

Refurbishing
For many labs, the refurbishment of equipment is an ideal option for some pieces of equipment that aren't running quite as smooth as they used to. The process will involve taking apart each piece and fully cleaning the components. Once they are clean, they can be re-lubricated and put back together. During the process, you can identify any parts that are showing signs of wear and that may need to be replaced before reassembling the equipment. When this process is done, some equipment will work just as good as when it was brand new.

 

Special Note on Electronics in the Lab
Maintenance of electronic devices in the lab is similar to general lab equipment. The three biggest enemies of electronic devices are dust, heat and (ironically) electricity. Dust mostly collects in the computer cases so it's a good idea to open the case from time to time and clean it. Heat can cause overheating of devices and damage the electronics. Keep your places well ventilated and keep the electronics away from the sources of heat. Too much electricity can also kill your devices. The best way to prevent this is to use surge protectors on electricity sockets.
Tablets and smartphones are much safer to use in the lab though. They are mostly resistant to dust, water and electrical surges since they are only plugged in while charging. Some tablets are extremely robust and even resistant to some tough liquids, such as ethanol, acetone or acids.
The most common cause of damages in electronics remains the human factor. Simply, don't drop your tablet on the floor, and you'll be OK.

 

Maintaining Software in the Lab
Many computers attached to instruments have disabled updates and antivirus software to improve performance and prevent software errors introduced by updates. While this is necessary, it is also a bad idea. Therefore, when buying new laboratory instruments, make sure they don't break with system updates and ask for explanations about this from vendors. Computers without critical system updates and antivirus software are a big security threat to your network and organization, therefore you need to treat it carefully.

 

Quality Replacements
In some cases, proper maintenance and refurbishment repairs will not be enough to get equipment working the way it should be. In time, certain pieces of lab equipment will need to be replaced. When this happens, some labs might be tempted to choose new equipment that is less expensive than their previous model in order to save money. Choosing new lab equipment should be done carefully. High-quality equipment, even when a little more expensive, is crucial for ensuring that it is durable and will offer accurate results for all of your experiments and testing needs. Equipment that is of higher quality is typically easier to find replacement parts for. Additionally, they're usually easier to be refurbished and clean.

 

Outsourcing
Many laboratories decide to outsource lab maintenance and cleaning duties. Repairs and maintenance should always be done by a qualified professional. In-house maintenance professionals typically cost more than third party companies. Each choice has benefits and the route you choose to take depends on your preferences and your budget. The reputation of a laboratory facility can only be as strong as the accuracy of its lab equipment. Because of this, regular cleaning, maintenance, refurbishing and the calibration of all equipment pieces is crucial.

 

 

Our Factory

Our factory is divided into two parts: the laboratory equipment production factory is in Wuxi City, Jiangsu Province, covering an area of 1,800 square meters and with more than 30 people in the workshop. The large-scale dyeing machine production factory is located in Zibo City, Shandong Province, covering an area of 15,000 square meters and with more than 70 people in the workshop. From sheet metal processing to assembly, the quality of the entire assembly line is controlled by ourselves.

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Frequently Asked Questions
 

Q: What industries use laboratory testing machines?

A: Laboratory testing machines are used across a wide range of industries, including automotive, aerospace, construction, medical devices, pharmaceuticals, textiles, metallurgy, plastics, and electronics. These machines help ensure that materials, components, and finished products meet specific safety, durability, and performance standards before they are used in real-world applications.

Q: What is the importance of using laboratory testing machines?

A: Laboratory testing machines are vital for ensuring product safety, quality, and compliance with regulatory standards. They provide data on material properties like strength, durability, flexibility, and resistance to environmental conditions. By testing materials and products before they are used in critical applications, manufacturers can prevent failures, improve product designs, and reduce costs associated with warranty claims or recalls.

Q: What is the role of software in laboratory testing machines?

A: Software plays a key role in controlling laboratory testing machines, collecting data, and generating detailed reports. Modern machines are often equipped with advanced software that allows operators to set test parameters, monitor real-time data, and analyze results. The software can generate graphs, tables, and reports that help engineers and scientists interpret the test outcomes and make informed decisions on product development or quality control.

Q: What are environmental testing machines?

A: Environmental testing machines simulate the conditions a material or product will face during its lifetime, such as extreme temperatures, humidity, UV exposure, or corrosive environments. These machines are used to test how materials or products degrade or perform under specific environmental stresses. Environmental testing is critical in industries like automotive, electronics, and aerospace, where materials must withstand harsh conditions.

Q: What is a compression testing machine used for?

A: A compression testing machine is used to determine the ability of a material or component to withstand compressive forces, which simulate crushing or squeezing pressures. This machine applies force to compress the test sample and measures how it deforms or breaks. It is commonly used to test materials such as concrete, metals, ceramics, and plastics in industries like construction and manufacturing.

Q: What is hardness testing and how is it performed?

A: Hardness testing measures a material's resistance to indentation, scratching, or wear. It is performed using a hardness tester that presses a specific indenter (such as a diamond, ball, or pyramid) into the material under a controlled load. The depth or size of the indentation is measured to determine the hardness level. Common hardness tests include Rockwell, Brinell, and Vickers methods, each suited to different materials and applications.

Q: What is an impact testing machine?

A: An impact testing machine measures the toughness of a material, specifically its ability to absorb energy and resist sudden shock or impact. The most common methods of impact testing are Charpy and Izod tests, where a pendulum is released to strike a notched sample, and the energy absorbed by the sample before breaking is measured. Impact testing is important for assessing materials used in safety-critical applications, such as automotive and aerospace parts.

Q: What is a fatigue testing machine and why is it used?

A: A fatigue testing machine is used to evaluate how materials or components perform under repeated cyclic loads over time. This type of testing simulates real-world conditions where materials experience varying stresses, helping predict their lifespan and durability. Fatigue testing is crucial for industries like aerospace, automotive, and construction, where components must endure repeated loads without failing.

Q: What is a calibration procedure for laboratory testing machines?

A: Calibration of a laboratory testing machine involves verifying and adjusting the accuracy of its measurements by comparing them to a known standard. Calibration ensures that the machine delivers precise and repeatable results, as required by industry standards. The process typically involves using certified weights, force sensors, or other reference materials to check the machine's accuracy and making necessary adjustments to maintain its performance.

Q: What are the safety precautions when using laboratory testing machines?

A: When using laboratory testing machines, safety precautions are essential to prevent accidents or damage. Operators should always wear personal protective equipment (PPE), such as safety goggles, gloves, and lab coats. Machines should be inspected before use to ensure all components are functioning properly. Additionally, test areas should be clearly marked, and operators must be trained on how to use the equipment safely and correctly. For high-force machines, shields or barriers should be used to protect against material failure or unexpected breakage during testing.

Q: How do you select the right testing machine for your lab?

A: Selecting the right testing machine depends on several factors, including the type of material you need to test, the properties you want to measure (such as strength, hardness, or fatigue), and the specific industry standards you need to meet. Consider the maximum force, load capacity, precision, and type of test (tensile, compression, etc.) that the machine can handle. It's also important to consider whether the machine can be integrated with software and whether it offers the flexibility to perform multiple types of tests.

Q: What is a load cell in a testing machine?

A: A load cell is a sensor that measures the force or load applied during a test in a laboratory testing machine. It converts mechanical force into an electrical signal that can be quantified and analyzed by the machine's software. Load cells are crucial for accurately measuring forces in tests such as tension, compression, and bending, and they ensure that test results are precise and repeatable.

Q: How do laboratory testing machines handle large or irregularly shaped samples?

A: Laboratory testing machines designed for large or irregularly shaped samples typically have adjustable grips, fixtures, or holders that can accommodate different sample sizes and shapes. In some cases, custom fixtures are designed specifically for unique test specimens. Additionally, machines with larger frames or more versatile platforms are used to test larger materials, such as building components or industrial parts.

We're professional laboratory testing machine manufacturers and suppliers in China, specialized in providing high quality customized service. We warmly welcome you to wholesale high-grade laboratory testing machine made in China here from our factory.

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