Job description for electroplating

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Job description for electroplating. Full document

Occupational Safety and Health

Occupational Safety and Health / Job descriptions

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I. General Provisions

The galvanizer is directly subordinated to _______.
The galvanizer follows the instructions of _______.
Galvanizer replaces _______.
Electroplating replaces _______.
Galvanic is appointed to the position and dismissed by the head of the department in agreement with the head of the department.
Must know:

kinematic, electrical circuits within the scope of the work performed and the design of all types of galvanic baths, control and automatic instruments and devices;
purpose, mode and methods of performing all types of galvanic coatings;
installation and inclusion of additional anodes;
basics of chemistry, electrochemistry and electrical engineering within the scope of the work performed;
rules for setting up and regulating control and measuring instruments.

When transferring to another job or dismissal from office, the galvanist is responsible for the proper and timely delivery of cases to the person entering the present position, and in the absence of such, to the person replacing him or directly to his supervisor.

II. Official duties

Galvanic performs the following job responsibilities:

Galvanic coating of all types of complex configuration products and parts with a large number of transitions.
Restoration of parts of jet and piston aircraft and their units with all types of chromium coating, including porous and spot chromium.
Dimensional chrome plating and nickel plating of parts according to the 5th grade.
Chrome plating of parts that require the installation of additional anodes; change in the spatial position of the anodes and parts in the process of chromium plating.
deep oxidation.
Manufacture of complex diamond precision tools by electroforming and electroplating.
Performing a complex of operations for the manufacture of bimetallic plates and fine-structured masks for color kinescopes.
Performance of work on the build-up of galvanic alloys.
Adjustment, adjustment and participation in the repair of serviced equipment.

III. Rights

Galvanic has the right:

give assignments to subordinate employees, tasks on a range of issues included in his functional duties;
control the fulfillment of production tasks, the timely execution of individual orders by employees subordinate to him;
to request and receive the necessary materials and documents related to the issues of their activities and activities of employees subordinate to him;
interact with other services of the enterprise on production and other issues that are part of its functional duties;
get acquainted with the draft decisions of the company's management regarding the activities of the Division;
propose for consideration by the manager proposals for improving the work related to the duties provided for in this Job Description;
submit for consideration by the head of the proposal on the promotion of distinguished employees, the imposition of penalties on violators of production and labor discipline;
report to the manager on all identified violations and shortcomings in connection with the work performed.

IV. A responsibility

Galvanizer is responsible for:

for improper performance or non-performance of their official duties provided for by this Job Description - within the limits determined by the labor legislation of Ukraine;
for violation of the rules and regulations governing the activities of the enterprise;
for offenses committed in the course of carrying out their activities - within the limits determined by the current administrative, criminal and civil legislation of Ukraine;
for causing material damage - within the limits determined by the current labor and civil legislation of Ukraine;
for compliance with current instructions, orders and orders for the preservation of trade secrets and confidential information;
for compliance with internal regulations, safety and fire safety rules.

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Molecule from photons 13.10.2013

For the first time, it was possible to combine photons into a molecule - until now, even theorizing on this topic has caused fierce debate in the scientific community. Physicists Professor Mikhail Lukin of Harvard and Professor Vladan Vuletic of the Massachusetts Institute of Technology (MIT) have actually been able to create a new form of matter from particles of light. The discovery of scientists contradicts decades of conventional wisdom about the nature of light. It has long been believed that photons are massless particles that do not interact with each other. Simply put, two beams of light simply pass through each other. However, the "photonic molecules" created by scientists behave very differently and, in theory, make hitherto unbelievable things possible, such as the lightsaber from Star Wars.

“Most of the properties of light that we know are related to the lack of mass of photons and the fact that they do not interact with each other,” explains Mikhail Lukin. “We have created a special type of medium. In it, photons interact with each other so strongly that "they start acting like they have mass. As a result, the photons are bound together to form molecules. This type of bound photon state has been suggested by theorists for quite some time, but has not yet been observed."

When photons interact, they push against each other and deflect each other. That is, the lightsaber of the Jedi, a solid light pillar, in the light of the discovery of scientists, no longer looks like a stupid notion of science fiction. To force "normal" massless photons to bind to each other, Lukin and his colleagues pumped rubidium atoms into a vacuum chamber and then cooled them with a laser to a temperature several degrees above absolute zero. After that, using extremely weak laser pulses, single photons were sent into a cloud of rubitium atoms.

As the photon enters the cloud of cold atoms, its energy excites the atoms in its path, causing the photon to slow down significantly. The energy of the photon is transferred from atom to atom and the photon loses it, but in the end, it flies out of the cloud, remaining the same light pulse as before entering the cloud.

When a photon exits the cloud, its identity is preserved, as happens with a beam of light in a glass of water. In the case of rubidium atoms, this process is a bit more extreme - the light slows down significantly and loses a lot more energy. However, scientists were surprised by something else: photons came out of the cloud of rubidium atoms together, as one molecule. How are these "molecules" formed and why has no one seen such molecules yet?

The effect by which photons are converted into a special form of matter is called Rydberg blockade. It is based on the fact that when an atom is excited, neighboring atoms cannot be excited to the same degree. In practice, this means that when two photons fly into a cloud of atoms, the first photon excites the atom and is forced to move forward before the second photon excites another nearby atom. Simply put, photons either pull or push each other, that is, they interact with each other like molecules, albeit indirectly (through rubidium atoms). However, when the photons exit the cloud, they exit together, not as single photons.

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