This covers equipment which produces a sample or specimen through physical or mechanical means or through chemical routes, but excluding biochemical and biomolecular processes.
Typically, “ball bonding” applications are associated with thermocompression (T/C) and thermosonic (T/S) joining methods. T/C utilizes pressure and temperature from about 150 degrees C (for most common applications) to create an intermetallic bond. T/S, on the other hand, adds ultrasonic energy from the previous process. With both methods, however, a “free air ball” is being created by a spark from an “electronic flame off” or EFO underneath the capillary before bonding takes place.
The R-3 Rotavapor is designed to meet the needs of classic laboratory applications found in education for both research and teaching purposes. Choice of glassware configurations: vertical for standard distillations and cold-trap for distilling low boiling solvents. 100-120 V AC. CE compliant.
Features:
• One-piece vapour duct and a PTFE composite vacuum seal for long service life and effective sealing
• Plastic-coated glassware with 24/40 joints
• Manual quick-action lift
• Heating bath with stainless steel pan and digital display: room temp. to 95°C
This series of rotary evaporators provides a complete solution for laboratory solvent evaporation processes by integrating a vacuum controller, vacuum pump, and recirculating chiller into one, compact, safe, reliable, easy-to-use, and maintenance-free system.
Used to create a patterned layer of metal on a conductive surface. Capable of electroplating both 150mm and 200mm wafers. Plating height can range from a few microns to fifty or more. Up to 900 ma current.
The MARS 6 multimode reactor is suitable for running a single vessel or up to 40 in parallel. Fully customizable, the MARS 6 benchtop system can be dedicated for synthesis or serve as an all-in-one microwave reactor for a variety of applications.
The second synthesis system is a Chemspeed Autoplant A100TM. This reactor system can handle more complex process conditions than the batch system. The system consists of 12 reactor modules. Each reactor module contains two 100-ml stainless steel reactors having mechanical stirring and reflux cooling. The temperature in each reactor can be controlled independently over a range of -10 to 250 °C. Solid and liquid reagents can be automatically charged to each reactor. In batch mode, up to 24 reactions can be run simultaneously.
The consistograph, combined with the Alveograph, provides the advantage of a complete and essential analysis of the plastic qualities of dough before baking, namely its behavior during kneading and rising.
•Anticipating the behavior of the dough during kneading.
•Determining the quantity of water to add so as to obtain a given consistency.
•Verifying the conformity of the products to their specification schedule.
•Classification of the wheat according to its uses in production (measurement of the W, P, L, G, P/L).
A highly sophisticated gas sorption analyzer available with up to three physisorption analysis ports for surface area analysis and pore size measurements, two of which can be equipped for low pressure micropore analysis including optional 0.1 torr transducer(s).
