PIV processors, memory - SD-RAM, DDR.
IC chip or precious metal scrap.
Processor, memory, SSD, HDD.
Apple products, crombook, processors, memories and desktop.
PC's PII - PIII, dell compaq HP, monitors 15" - 17", parts, memory, hard drives.
BGA chipset, CPU processors, ram memory, hard drives.
"CPU scrap board" typically refers to the circuit boards or electronic components that come from discarded or obsolete computer central processing units (CPUs) and related electronic devices. These boards contain various materials, including metals, plastics, and small electronic components. Here are some key points about CPU scrap boards: Composition: CPU scrap boards are composed of a substrate, often made of fiberglass or other materials, on which electronic components are mounted. These components include microprocessors, memory chips, resistors, capacitors, and other integrated circuits. Metals Content: The boards may contain valuable metals, such as gold, silver, copper, and palladium. These metals are often used in the manufacturing of electronic components for their electrical conductivity and corrosion resistance. Recovery of Precious Metals: Recycling CPU scrap boards is a common practice to recover precious metals. Precious metal reclamation is typically done through processes like mechanical separation, chemical leaching, and refining. Environmental Considerations: Recycling CPU scrap boards is important for environmental reasons. It helps reduce electronic waste (e-waste) and minimizes the environmental impact associated with the disposal of electronic components. Economic Value: The recycling of CPU scrap boards can have economic benefits due to the recovery of precious metals. The value of the scrap depends on the market prices of the metals at the time of recycling. Processing Methods: Various methods are used to process CPU scrap boards for recycling, including manual dismantling, mechanical shredding, and chemical processes to extract metals. Regulations: There are regulations and guidelines in many regions regarding the proper disposal and recycling of electronic waste, including CPU scrap boards. It's important to adhere to these regulations to ensure environmentally responsible practices.
Philips V60 Plus* ventilator is a microprocessor-controlled, bilevel positive airway pressure (BiPAP) ventilatory assist system that provides noninvasive positive pressure ventilation (NPPV) and invasive ventilatory support for spontaneously breathing adult and pediatric patients.
The Respironics V60 ventilator is a microprocessor-controlled, bilevel positive airway pressure (BiPAP) ventilatory assist system that provides noninvasive positive pressure ventilation (NPPV) and invasive ventilatory support for spontaneously breathing adult and pediatric patients. Advanced NIV with our patented Auto-Trak technology Auto-Trak technology is designed to address the specific challenges of noninvasive ventilation. By providing auto-adaptive leak compensation, inspiratory triggering, and expiratory cycling, Auto-Trak delivers optimal synchrony in the face of dynamic leak and changing patient demand. Hospital modes and options include: AVAPS, PCV, CPAP with C-Flex, PPV and Auto-Trak Plus. Save time with automatic mask calibration We support your NIV efforts by increasing the speed and ease of treatment initiation. V60s pre-defined settings for Philips Respironics hospital masks help you save time. You select the setting, and the V60 automatically calibrates flow characteristics for better monitoring and therapy. Flexible, easy, upgradeable Designed to include pediatric use and equipped with several modes, the V60 allows you to meet the specific needs of your patients. The high-resolution touchscreen makes operation easy and facilitates waveform interpretation. The internal 6-hour battery enables intra-hospital transport. And, Respi-Link* allows you to upgrade via the internet.
Hyfrecator 2000 Electrosurgical System (ESU) It is a multi-function electrosurgical generator with both monopolar and bipolar modes, self-diagnostics, and recall of stored power settings It features a high output terminal for heavy desiccation and fulguration procedures that require high intensity, and a low output terminal for light desiccation and fulguration procedures requiring low intensity and increased precision. The independent outputs produce two different therapeutic effects that provide better control of the desired clinical outcome The unit features dual microprocessors. One microprocessor controls the output and functionality of the system while the second monitors the system and terminates activation if a safety hazard is detected. This results in regulated delivery of current, while simultaneously ensuring safe operation. Available accessories: Handpiece and Power cord
Ultra-high thermal conductive silicone sheet is a high-performance heat conducting interface material made of 100% imported materials for fillingthe air gaps between the heating device and the heat sink or metal base.Its softness and elasticity characteristics enable it to be used for coveringa very uneven surface. Heat is transferred from the separation device or the entire PCB to the metal casing or diffuser to improve heat dissipationand improve the efficiency of heating electronic components and service Features & Benefits: High thermal conductivity, low thermal resistance Soft and flexible, reducing the interface thermal resistance High electrical insulation to protect sensitive electronic devices Natural sticky, easy assembly, re-workable Meet ROHS and UL environmental requirements Typical Applications: CPU, memory module Communication hardware equipment High-speed hard disk drive Automotive engine control module Microprocessors, memory chips and graphics processors Military electronic equipment For more , please kindly feel free to contact
High thermal conductive silicone pad is a high thermal conductivity material. The raw material is made of Japan Electrochemical High Thermal Conductive Spherical Alumina Powder and Dow Corning Polymer. It is a cost-effective thermal gap filling material. The surface's natural micro-viscosity and softness can well fill the air gaps to transfer the heat between the heat source and the heat sink to improve heat dissipation and improve the efficiency of heating electro-nic components and service life. It is an ideal thermal interface material. Benefits: Cost-effective, high conductivity, low thermal resistance Soft and flexible, reducing the interface thermal resistance High electrical insulation to protect electronic devices Natural sticky, easy application, reworkable Meet ROHS and UL environmental requirements Applications: High thermal conductivity module new energy vehicles Microprocessors, memory chips and graphics processors Network communication equipment Car equipment, charger High-speed hard disk drive For more , please kindly feel free to contact
The material is heat reinforced polymer, designed to meet the Thermal conductivity and reliability demand for the thermal conductivity of high application terminal. In addition, the heat sinks performance benefits a lot from the low heat resistance. And improve the microprocessor, DC - DC converter of memory module and the reliability of power module. The phase change characteristics: the material is solid in room temperature and installation is completely convenient, used between heatsink and devices. The material can be softened and flowing when the products reach phase-change temperature to fill the devices tiny irregular contact surface. Thus, the material has the ability to fill the gap between the devices and heat sink completely, make the phase change better than non-current elastomers or thermal graphite pad and get the performance of thermal conductive silicon grease. The material is nonconductive, however, as the material has endured the phase change at high temperature, may make the metal get to the metal, so the phase change interface material cannot Features & Benefits: Low heat resistance and low stress Natural sticky, easy to use-no need to use glue No radiator preheating Flow but not silicon oil Low volatility--less than 1%
The material is heat reinforced polymer, designed to meet the Thermal conductivity and reliability demand for the thermal conductivity of high application terminal. In addition, the heat sinks performance benefits a lot from the low heat resistance. And improve the microprocessor, DC - DC converter of memory module and the reliability of power module. The phase change characteristics: the material is solid in room temperature and installation is completely convenient, used between heatsink and devices. The material can be softened and flowing when the products reach phase-change temperature to fill the devices tiny irregular contact surface. Thus, the material has the ability to fill the gap between the devices and heat sink completely, make the phase change better than non-current elastomers or thermal graphite pad and get the performance of thermal conductive silicon grease. The material is nonconductive, however, as the material has endured the phase change at high temperature, may make the metal get to the metal, so the phase change interface material cannot Features & Benefits: Low heat resistance and low stress Natural sticky, easy to use-no need to use glue No radiator preheating Flow but not silicon oil Low volatility--less than 1%
High thermal conductive silicone pad is a high thermal conductivity material. The raw material is made of Japan Electrochemical High Thermal Conductive Spherical Alumina Powder and Dow Corning Polymer. It is a cost-effective thermal gap filling material. The surface's natural micro-viscosity and softness can well fill the air gaps to transfer the heat between the heat source and the heat sink to improve heat dissipation and improve the efficiency of heating electro-nic components and service life. It is an ideal thermal interface material. Benefits: Cost-effective, high conductivity, low thermal resistance Soft and flexible, reducing the interface thermal resistance High electrical insulation to protect electronic devices Natural sticky, easy application, reworkable Meet ROHS and UL environmental requirements Applications: High thermal conductivity module new energy vehicles Microprocessors, memory chips and graphics processors Network communication equipment Car equipment, charger High-speed hard disk drive For more , please kindly feel free to contact rita(at)szutd.com
High thermal conductive silicone pad is a high thermal conductivity material. The raw material is made of Japan Electrochemical High Thermal Conductive Spherical Alumina Powder and Dow Corning Polymer. It is a cost-effective thermal gap filling material. The surface's natural micro-viscosity and softness can well fill the air gaps to transfer the heat between the heat source and the heat sink to improve heat dissipation and improve the efficiency of heating electro-nic components and service life. It is an ideal thermal interface material. Benefits: Cost-effective, high conductivity, low thermal resistance Soft and flexible, reducing the interface thermal resistance High electrical insulation to protect electronic devices Natural sticky, easy application, reworkable Meet ROHS and UL environmental requirements Applications: High thermal conductivity module new energy vehicles Microprocessors, memory chips and graphics processors Network communication equipment Car equipment, charger High-speed hard disk drive For more , please kindly feel free to contact rita(at)szutd.com
Ultra-high thermal conductive silicone sheet is a high-performance heat conducting interface material made of 100% imported materials for fillingthe air gaps between the heating device and the heat sink or metal base.Its softness and elasticity characteristics enable it to be used for coveringa very uneven surface. Heat is transferred from the separation device or the entire PCB to the metal casing or diffuser to improve heat dissipationand improve the efficiency of heating electronic components and service Features & Benefits: High thermal conductivity, low thermal resistance Soft and flexible, reducing the interface thermal resistance High electrical insulation to protect sensitive electronic devices Natural sticky, easy assembly, re-workable Meet ROHS and UL environmental requirements Typical Applications: CPU, memory module Communication hardware equipment High-speed hard disk drive Automotive engine control module Microprocessors, memory chips and graphics processors Military electronic equipment For more , please kindly feel free to contact rita(at)szutd.com
Ultra-high thermal conductive silicone sheet is a high-performance heat conducting interface material made of 100% imported materials for fillingthe air gaps between the heating device and the heat sink or metal base.Its softness and elasticity characteristics enable it to be used for coveringa very uneven surface. Heat is transferred from the separation device or the entire PCB to the metal casing or diffuser to improve heat dissipationand improve the efficiency of heating electronic components and service Features & Benefits: High thermal conductivity, low thermal resistance Soft and flexible, reducing the interface thermal resistance High electrical insulation to protect sensitive electronic devices Natural sticky, easy assembly, re-workable Meet ROHS and UL environmental requirements Typical Applications: CPU, memory module Communication hardware equipment High-speed hard disk drive Automotive engine control module Microprocessors, memory chips and graphics processors Military electronic equipment For more , please kindly feel free to contact rita(at)szutd.com
Product description The Medical Infrared Thermometer measures body temperature based on detecting infrared energy emitted from the forehead. Users can quickly obtain measurement results after properly positioning the temperature probe on the forehead. Normal body temperature has a range. Features: Quick measurement in just 1 second Accurate and reliable One button design, making it easy to operate 32 memory slots, making it easy to save and recall temperatures Switch between Celsius and Fahrenheit Turn on/off the buzzer/speaker Orange LED indicates an intelligent low fever alarm Red LED indicates an intelligent high fever alarm Automatic shutdown for energy conservation Intended use The medical infrared thermometer is intended for measuring human body temperature by detecting forehead, it is for people of all ages. Components The infrared thermometer consists of a shell, digital display, power/measure/set button, buzzer/speaker, probe with infrared sensor inside, optical filter, microprocessor, circuit board and measuring software. Packing list: Medical infrared thermometer 1 pc Storage bag 1 pc User manual 1 pc AAA dry cell battery 2 pcs Do not use the thermometer for continuous temperature monitoring purposes. Do not take a measurement while or immediately after nursing a baby. Patients should not drink, eat, bathe or engage in physical activity for 30 minutes before using the thermometer. After eating, some organs have to work, such as the stomach, intestinal tract, etc., generating extra heat which affects temperature accuracy. For more information please read the user manual inside the package. LEGAL DISCLAIMER 1)Keep out of reach of children under 12 years of age. 2)Never immerse the thermometer in water or other liquid (it is not waterproof). For cleaning and disinfection, please follow the instructions in the Cleaning and disinfection section. 4)Keep the thermometer out of direct sunlight in a dry, dust-free, well-ventilated area at a temperature between 10.0 40.0 (50.0 104.0). Do not use the thermometer in a high humidity environment (>85% RH). 5)Do not use the thermometer if there are signs of damage on the optical filter or elsewhere on the instrument. If damaged, never attempt to repair the instrument! Please contact the dealer or manufacturer. 6)This thermometer consists of high-precision parts. Do not drop or twist the instrument. Protect it from severe impact and shock.