Re: Badcaps on the Mars mission!

There was this one way ticket to Mars , no return allowed that i used to follow , and always asking myself why not ? . A new frontier , a new unfinished question among all the finished answers and questions...

Now , i changed my mind , lol ...

Re: Badcaps on the Mars mission!

Oy these posts are annoying...

Re: Badcaps on the Mars mission!

Going to Mars is annoying ?

Re: Badcaps on the Mars mission!

Teardrops chemical composition: Tear fluid contains water, mucin, lipids, lysozyme, lactoferrin, lipocalin, lacritin, immunoglobulins, glucose, urea, sodium, and potassium.Amino acids.

Urine chemical composition: Urine is an aqueous solution of greater than 95% water, with the remaining constituents, in order of decreasing concentration urea 9.3 g/L, chloride 1.87 g/L, sodium 1.17 g/L, potassium 0.750 g/L, creatinine 0.670 g/L and other dissolved ions, inorganic and organic compounds


Blood chemical composition: Each red blood cell is about 1/3 hemoglobin, by volume. Plasma is about 92% water, with plasma proteins as the most abundant solutes. The main plasma protein groups are albumins, globulins, and fibrinogens. The primary blood gases are oxygen, carbon dioxide, and nitrogen.

Semen chemical composition: The prostate gland contributes about 30 percent of the seminal fluid; the constituents of its secretions are mainly citric acid, acid phosphatase, calcium, sodium, zinc, potassium, protein-splitting enzymes, and fibrolysin (an enzyme that reduces blood and tissue fibres)

The other one omit. Some people may feel offended.



In animals, the main excretory products are carbon dioxide, ammonia (in ammoniotelics), urea (in ureotelics), uric acid (in uricotelics), guanine (in Arachnida) and creatine. The liver and kidneys clear many substances from the blood (for example, in renal excretion), and the cleared substances are then excreted from the body in the urine and feces.

Re: Badcaps on the Mars mission!

Aluminum electrolytic capacitors

Modern electrolytes for capacitors are the complex multi-component mixtures of acids and salts, in which the electric current flow is supported by ions and is accompanied by electrolysis.

The main components of the electrolyte are ion formation substances (ionogens), organic and inorganic acids and their salts, but they are rarely used in their natural form. Typically, they are dissolved in a suitable solvent to produce electrolytic dissociation with the desired viscosity and formation of the electrolyte ions. Acids which can be used include monocarboxylic acids (nonane, oleic, stearic acid) and dicarboxylic acids (succinic, adipic, azelaic,sebacic, dodecane dicarboxylic acid, pentadecandioic acid), and phosphoric, boric, benzoic acid (or ammonium benzoate). Boric acid enhances the forming ability of the electrolyte. For medium- and high-voltage capacitors, lactone and amide solvents can be used as a solvents. Electrolytes based on lactone solvents ensure high reliability and long service life of medium to high voltage capacitors, but the lower limit of operating temperature of such capacitors is limited, as a rule, to minus 55 °C. Electrolytes based on amide solvents ensure the lower limit of the capacitor operating temperature of minus 60 °C or even lower. However, these electrolytes are not able to provide long service life for the capacitor, as they are very volatile and react with the aluminum oxide on the anode and destroy it, which leads to an increase in leakage current in the capacitor and a reduction of its service life. On the other hand, reduction of content of amide solvents and replacement of them with other solvents, which are less volatile and less aggressive to aluminum oxide, reduce low-temperature characteristics of the electrolyte, and thus of the capacitor along with the conductivity of the electrolyte.

The electrolytic capacitor got its name from the electrolyte, the conductive liquid inside the capacitor. As a liquid it can be adapted to the porous structure of the anode and the grown oxide layer with the same shape and form as a "tailor-made" cathode. An electrolyte always consists of a mixture of solvents and additives to meet given requirements. The main electrical property of the electrolyte is its conductivity, which is physically an ion-conductivity in liquids. In addition to the good conductivity of operating electrolytes, various other requirements are, among other things, chemical stability, high flash point, chemical compatibility with aluminum, low viscosity, low environmental impact and low costs. The electrolyte should also provide oxygen for forming and self-healing processes, and all this within a temperature range as wide as possible. This diversity of requirements for the liquid electrolyte results in a wide variety of proprietary solutions.

The electrolytic systems used today can be roughly summarized into three main groups:

Electrolytes based on ethylene glycol and boric acid. In these so-called glycol or borax electrolyte an unwanted chemical crystal water reaction occurs according to the scheme: "acid + alcohol" gives "ester + water". These borax electrolytes are standard electrolytes, long in use, and with a water content between 5 and 20%. They work at a maximum temperature of 85 °C or 105 °C in the entire voltage range up to 600 V. Even with these capacitors, the aggressiveness of the water must be prevented by appropriate measures.
Almost anhydrous electrolytes based on organic solvents, such as dimethylformamide (DMF), dimethylacetamide (DMA), or γ-butyrolactone (GBL). These capacitors with organic solvent electrolytes are suitable for temperature ranges from 105 °C, 125 °C or 150 °C, have low leakage current values and have very good long-term capacitor behavior.
Water based electrolytes with high water content, up to 70% water for so-called "low-impedance", "low-ESR" or "high-ripple-current" electrolytic capacitors with rated voltages up to 100 V for low-cost mass-market applications. The aggressiveness of the water for aluminum must be prevented with suitable additives.
Since the amount of liquid electrolyte during the operating time of the capacitors decreases over time through self-healing and by diffusion through the seal, the electrical parameters of the capacitors may be adversely affected, limiting the service life or lifetime of "wet" electrolytic capacitors, see the section on lifetime below.

The first solution in the 1970s was the development of water-free electrolyte systems based on organic solvents. Their advantages, among other things were lower leakage currents and nearly unlimited shelf life. But now another problem was observed. The growing mass production with automatic insertion machines requires a washing of the PCB's after soldering. The cleaning solutions contain chloroalkanes (CFC) agents. These halogens solutions sometimes permeate the sealing of the capacitors and start chlorine corrosion. Again there was a leakage current problem.

ELECTROLYTIC CAPACITORS: DESIGN FEATURES AND PROBLEMS
OF THE CHOICE


General Descriptions of Aluminum Electolytic Capacitors
https://cdn.badcaps-static.com/pdfs/...e97a388431.pdf

Re: Badcaps on the Mars mission!

use a potato instead

Re: Badcaps on the Mars mission!

Potato battery! Battery is A huge capsistor..........the intelligence of British people.......

Re: Badcaps on the Mars mission!

are u making a potato-head joke at the british?

Re: Badcaps on the Mars mission!

I just think it should be in the off topic thread instead of this thread.

Re: Badcaps on the Mars mission!

http://www.dailymail.co.uk/news/arti...er-POTATO.html
check it out .you will like

Re: Badcaps on the Mars mission!

No Mr. Potato Head it is British Pokemon!

PS: Ha......Ha.....AA patrolman Mario Papademetriou wired up a potato with a couple of screws to act as a condenser.

Re: Badcaps on the Mars mission!

I Saw this movie ..Matt Damon planting potatoes to survive , using human dirt , and fabricating H2O out of nothing components . Nice one to see for survival purposes using genius Electronic or Electrical handiful devices .

The point is , i was aware where capwizard will take us , and i find such subjects extremely interesting .

Re: Badcaps on the Mars mission!

+10 ...

Re: Badcaps on the Mars mission!


Did not say they are interesting. It just is in wrong thread. It should be off topic.