The research was completed under the auspices of Xu Jian and a part-time researcher of the Qingdao Energy Institute and Huang Biao of the University of Sheffield in the United Kingdom. The project team's research and development is the first cell manual and automatic sorting instrument based on cell Raman fingerprinting. The sorter can achieve rapid single-cell Raman spectra collection, and the first time the single-cell Raman signal acquisition time shortened to 1 to 100 milliseconds; can also complete Raman map-based cell types and growth status of rapid identification and many other task.
The core advantage of this instrument is that it is sensitive to cell biochemical information and its changes. There is no need to anticipate biomarkers or label cells, and in situ and non-invasive bioassays can be performed. This technology will make a positive contribution to the research of single cell biotechnology and single cell genomes.
The project team has used this instrument to obtain preliminary results in the study of the physiological status of photosynthetic oil-producing microalgae and the separation of PAH-degrading microorganisms, and established the reference methods and data analysis procedures for applied demonstration technologies.
It is understood that the instrument currently serves a number of research teams at home and abroad, including marine resource excavation, biofuels and biomaterials, bioenergy germplasm screening, food microbiological testing, drug research, cancer monitoring and sorting, and environmental microbiological monitoring. Agricultural ecological research and other fields play an important role.
We develop the CNC Brass parts
In modern CNC systems, end-to-end component design is highly automated using computer-aided design (CAD) and computer-aided manufacturing (CAM) programs. The programs produce a computer file that is interpreted to extract the commands needed to operate a particular machine by use of a post processor, and then loaded into the CNC machines for production. Since any particular component might require the use of a number of different tools – drills, saws, etc. – modern machines often combine multiple tools into a single "cell". In other installations, a number of different machines are used with an external controller and human or robotic operators that move the component from machine to machine. In either case, the series of steps needed to produce any part is highly automated and produces a part that closely matches the original CAD design
Brass is a metal alloy made of copper and zinc; the proportions of zinc and copper can be varied to create a range of brasses with varying properties. It is a substitutional alloy: atoms of the two constituents may replace each other within the same crystal structure.
By comparison, bronze is principally an alloy of copper and tin. However, bronze and brass may also include small proportions of a range of other elements including arsenic, phosphorus, aluminum, manganese, and silicon. The term is also applied to a variety of brasses, and the distinction is largely historical. Modern practice in museums and archaeology increasingly avoids both terms for historical objects in favour of the all-embracing "copper alloy".
Brass is used for decoration for its bright gold-like appearance; for applications where low friction is required such as locks, gears, bearings, doorknobs, ammunition casings and valves; for plumbing and electrical applications; and extensively in brass musical instruments such as horns and bells where a combination of high workability (historically with hand tools) and durability is desired. It is also used in zippers. Brass is often used in situations in which it is important that sparks not be struck, such as in fittings and tools used near flammable or explosive materials
B. Main particulars
|
MAIN PARTICULARS |
Material |
Brass(C36000(C26800),C37700(HPb59),C38500(HPb58),C27200(CuZn37) , C28000(CuZn40)-) |
Standard |
ASTM, ASME, DIN, JIS, ISO, BS, API, EN |
Certificate |
ISO9001 |
Tolerance |
Up to +/- 0.002mm |
Dimension |
As per drawing, as large as we can |
Processing |
CNC turning, CNC turning and milling compound processing, 3/4/5 axis CNC machining center, wire-cutting, EDM, grinding etc. |
Finishing surface |
Machined surface with oil, blasting and painting, anodize, polishing, powder painting, electrophoretic coating- |
Marking |
as per clients` requirements |
Inspection |
material, construction, dimension, heat treatment, hardness, NDT |
Quality |
ISO9001, PPAP control production |
Lead time |
3-20 days for sample, consult with customer for mass production |
Delivery |
Express for sample, ocean shipping/air for mass production |
Our Capabilities |
CNC machining, CNC center machining, drilling, milling, turning, grinding, tapping, boring |
Engineering & manufacturing services |
R&D process, tooling and gauging design, product design Integrated CAD/CAM system, test and measuring |
Others |
Recyclable, in line with environmental requirements and standards, and reliable |
C. Construction
Construction by machining
D Workmanship
The workmanship have good production practice. Care are taken to ensure High accuracy and smooth surfaces
E. Certificates
- Material certificates
- Measuring reports
- Inspection protocol
- NDT reports
- Fixed certificate: ISO9001 certificate
Our service
Besides above the general specifications, we can also supply some specific machining parts as clients' requirements.
Package and shipping
Export cartons, pallets, wooden cases, Polybags
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