China Standard Tc1000-G Laboratory PCR Thermal Cycler PCR Polymerase Chain Reaction

Product Description

PCR Thermal Cycler TC1000-G

Product Description

 Reliable  heating/cooling  elements  and  precise temperature control
•   Unique  design  of  block  ensur es  the temperature uniformity and repeatable results
•   7 inch Large color touch panel screen for easy programming with user friendly software
•   High performance DSP and temperature control
•   Fast heating and cooling rate
•   Large user program storage

Detailed Photos

Product Parameters

Specifications TC1000-G
Sample Capacity 96X0.2mL PCR tube,  8X12 PCR plate or 96 well plate
Heating Temperature Range 4-105ºC
Lid Temperature Range 30-110ºC
Temperature Display Accuracy ±0.1ºC
Temperature Control Accuracy [at 55ºC] ±0.3ºC
Temperature uniformity[at 55ºC] <0.3ºC
Max. Heating/Cooling Rate 3ºCSec
Gradient Temperature Setting Range 30-99ºC
Gradient Range 1-42ºC
Adapter block material aluminum
Display 7″ LCD 800×480
Input Touch panel
User defined file system Max. 30 segments 99 cycles  max. 16 folder and 16 files each folder
Power off protection Yes
Power Supply 100-120V/200-240V,50/60Hz
Dimension [D×W×H]
( without the heating block )
280x370x250 mm
Weight 11kg

Classification: Medical Instruments
Type: Polymerase Chain Reaction
Certification: CE, ISO13485
Group: All
Max. Heating/Cooling Rate: 3
Temperature Uniformity: Less Than 0.3
Customization:
Available

|

Customized Request

industrial chain

What are the future trends and advancements in industrial chain technology?

Industrial chain technology is continuously evolving to meet the changing needs of various industries. Here are some future trends and advancements that can be observed in industrial chain technology:

  • Increased Automation: Industrial chains are becoming an integral part of automated systems. The advancement of robotics, IoT (Internet of Things), and artificial intelligence is driving the integration of industrial chains with smart technologies. This includes features such as remote monitoring, predictive maintenance, and real-time data analysis for optimizing chain performance and overall system efficiency.
  • Improved Materials and Coatings: Ongoing research and development efforts are focused on developing advanced materials with enhanced properties for industrial chains. This includes materials with superior strength, durability, corrosion resistance, and wear resistance. Additionally, the development of advanced surface coatings and treatments further enhances the performance and lifespan of industrial chains.
  • Energy Efficiency: Energy efficiency is a growing concern in industrial applications. Future industrial chains are likely to incorporate designs and features that reduce energy consumption, such as optimized chain profiles, reduced friction coatings, and improved lubrication systems. These advancements aim to minimize power losses and improve overall system efficiency.
  • Integration with Digital Technologies: Industrial chains are expected to be increasingly integrated with digital technologies for seamless communication and data exchange. This integration enables better monitoring of chain performance, real-time diagnostics, and the ability to make data-driven decisions for maintenance and optimization. Digital twins, virtual simulations, and augmented reality (AR) are also emerging trends that allow for improved chain design, testing, and troubleshooting.
  • Enhanced Safety Features: Safety remains a top priority in industrial settings. Future industrial chains may incorporate advanced safety features such as integrated sensors for detecting chain wear, overload conditions, or abnormal operating parameters. These features can provide early warning signs and help prevent accidents or equipment failures.

The future of industrial chain technology is driven by the need for increased efficiency, reliability, and safety. The integration of smart technologies, improved materials, energy efficiency measures, digitalization, and enhanced safety features are expected to shape the advancements in industrial chain technology in the coming years.industrial chain

Can an industrial chain be used in high-temperature environments?

An industrial chain’s suitability for high-temperature environments depends on the specific chain type, material, and operating conditions. While some industrial chains are designed to withstand elevated temperatures, others may experience performance issues or damage when exposed to excessive heat.

Industrial chains used in high-temperature applications are typically constructed using materials that exhibit excellent heat resistance. Common materials include heat-resistant alloys, stainless steel, or specialized coatings that can withstand the elevated temperatures without compromising the chain’s strength or integrity.

When considering the use of an industrial chain in high-temperature environments, several factors should be taken into account:

  • Temperature Range: Determine the maximum temperature the industrial chain will be exposed to. Different chain materials have different temperature limits, and it’s crucial to select a chain that can withstand the specific temperature range.
  • Chain Type: Certain chain types, such as roller chains or silent chains, may be better suited for high-temperature applications than others. Consult the manufacturer’s guidelines and specifications to ensure the chosen chain type is suitable for the intended temperature range.
  • Lubrication: Proper lubrication is essential in high-temperature environments to minimize friction, reduce wear, and ensure smooth chain operation. Special high-temperature lubricants or dry lubrication methods may be required to maintain chain performance under elevated temperatures.
  • Heat Dissipation: Consider the ability of the industrial chain and the surrounding equipment to dissipate heat effectively. In some cases, additional cooling mechanisms or heat shielding may be necessary to protect the chain and prevent overheating.
  • Application Requirements: Assess the specific demands of the application, such as load, speed, and cyclic operation, and ensure that the chosen industrial chain can handle these conditions at high temperatures.

It’s important to consult the manufacturer’s recommendations and technical documentation to verify the suitability of an industrial chain for high-temperature environments. Working with experienced engineers or industry experts can also provide valuable insights and guidance in selecting the appropriate chain for such applications.

industrial chain

What materials are commonly used in industrial chains?

Industrial chains are constructed using various materials to meet specific application requirements. The choice of material depends on factors such as load capacity, environmental conditions, corrosion resistance, and temperature resistance. Here are some commonly used materials in industrial chains:

  • Carbon Steel: Carbon steel is widely used in industrial chains due to its strength, durability, and affordability. It offers good resistance to wear and can handle moderate loads in standard operating conditions.
  • Alloy Steel: Alloy steels are alloyed with other elements to enhance their mechanical properties, such as increased strength, hardness, and wear resistance. Alloy steel chains are commonly used in heavy-duty applications where higher load capacities and greater toughness are required.
  • Stainless Steel: Stainless steel chains are highly corrosion-resistant and are suitable for applications where exposure to moisture, chemicals, or high temperatures is a concern. They offer excellent durability and can withstand harsh environments, making them ideal for industries such as food processing, pharmaceuticals, and marine applications.
  • Plastic: Plastic chains, typically made from engineering-grade polymers such as acetal or nylon, are lightweight, corrosion-resistant, and offer low friction. They are often used in applications where reduced noise, lubrication-free operation, and resistance to chemicals or moisture are desired.
  • Specialty Alloys: In specific industries or applications with extreme conditions, specialty alloys such as stainless steel alloys, nickel alloys, or heat-resistant alloys may be used to provide exceptional strength, corrosion resistance, or temperature resistance.

It’s important to consider the material compatibility with the environment, load requirements, and other factors when selecting an industrial chain for a particular application. Consulting with manufacturers or industry experts can help determine the most suitable material for specific industrial chain needs.

China Standard Tc1000-G Laboratory PCR Thermal Cycler PCR Polymerase Chain Reaction  China Standard Tc1000-G Laboratory PCR Thermal Cycler PCR Polymerase Chain Reaction
editor by CX 2023-10-20

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