Search for: "Coatings"
A History of Magnet Implantation
==Table of Contents== ---- ===Implantation=== #Magnet Placement #Coating Developments ===After Care=== . . . A small magnet is [[http://wiki.biohack.me/Coatings|coated]] in a bio-inert material that protects . . . that was far more likely to fail than today's coatings. Newer magnets are coated through injection . . .
7K - last updated 2016-07-24 20:11 UTC by masterjasper
A History of RFID and NFC Implantation
==Table of Contents== ---- ===Implantation=== #RFID Placement #Coatings ===After Care=== ---- The modern . . . it allows for full motion of the thumb. ===Coatings=== Chips shipped from Dangerous Things come . . . the wiki dedicated to [[http://wiki.biohack.me/Coatings|coatings]]. ==[[http://wiki.biohack.me/After_Care|After . . .
6K - last updated 2015-03-25 22:51 UTC by Frank Matheson
Coatings
[[Who We Are]] > [[Device Design Considerations]] > [[Coatings]] ---- [[Parylene (Bio-compatible . . .
1K - last updated 2016-05-16 05:49 UTC by Zerbula
Conformal Coating
Conformal coating is a protective nonconductive dielectric layer that is applied onto the printed circuit . . . by harsh or extreme environments. Conformal coatings are usually used in products that are made . . . visible as a clear and shiny material. Some coatings are hard, while others have a slightly rubbery . . . texture. Most coatings include a marker that appears greenish white . . . checking during production. In the past, coatings were only applied to military and life/medical . . .
5K - last updated 2018-11-06 13:33 UTC by nevit
Crevice Penetration of Parylene
Parylene (XY) polymers provide robust, dielectric, micron-thin conformal coatings for a considerable . . . nanometer, if necessary. Pre-synthesized liquid coatings lack many of parylene’s performance properties, . . . conformally penetrate crevices in the substratecoatings1 **Additional CVD advantages include:** *Room . . . in contract applications of Conformal Coatings for Department of Defense and Commercial Electronic . . .
5K - last updated 2018-11-13 20:02 UTC by nevit
Device Design Considerations
[[Who We Are]] > [[Device Design Considerations]] When designing something for the human body there . . . of long term exposure to silicon, etc. == [[Coatings]] == [[Coatings]] - various coatings and their . . .
2K - last updated 2016-07-12 13:02 UTC by Meanderpaul
Gold (Au)
Gold (Au) is the 79th element in the periodic table, it's a very (the most, by pure elements) malleable, . . . coating, though it is among the most fragile coatings you could put on it, and are prone to higher . . . electroplated over surfaces to form thin coatings, which in theory, should be completely biosafe. . . .
2K - last updated 2016-05-16 06:27 UTC by Zerbula
Information on Magnets
[[Who We Are]] > [[Implantable Mods]] > [[Magnets]] > [[Information on Magnets]] //Any and all . . . relate to: - Shapes - Sizes - Compositions - Coatings All of these can effect characteristics. ==Shape== . . . and most NdFeB magnets, even WITH alternate coatings (such as Au, TiN, ETC.) Also have a Nickel . . . Why are you even considering this? No. ==Coatings== Neodymium is toxic, not just Bioincompatible. . . . interfere. What should be understood about coatings: *Coatings NEED to make the implant, magnet . . .
11K - last updated 2016-07-24 15:20 UTC by masterjasper
Parylene
Parylene is the trade name for a variety of chemical vapor deposited polymers used as moisture and dielectric . . . advantages. Parylene C is one of the most common coatings used to bioproof magnet implants among Grinders. . . .
1K - last updated 2015-02-08 05:05 UTC by Griskard
Parylene (Bio-compatible Polymer)
**IMPORTANT:** By reading this page, you declare you have read and agree to the conditions in the [[http://biohack.me/disclaimer.html|disclaimer]]. . . . strength. *There is no liquid phase involved. Coatings are truly conformal, of uniform controllable . . . *Room temperature formation means the coatings are effectively stress-free. *Parylene is . . . have low bulk permeability and are hydrophobic. Coatings easily pass a 100hr salt-spray test. *Parylene . . . parylene-coated devices is well-documented. The coatings comply with USP Class VI Plastics requirements . . .
12K - last updated 2018-11-06 13:22 UTC by nevit
Titanium Nitride (TiN)
===Contents:=== #Coating Procedure #Sterilization #Bacterial Adhesion #Biocompatibility #Fidelity #References . . . titanium aluminum nitride (TiAlN), as surface coatings for bio implants]] . . .
4K - last updated 2016-08-27 13:11 UTC by Birdhandz
conformal-coating-types-acrylic-urethane-silicone-and-parylene
Used for aerospace. automotive, commercial, defense, industrial and medical applications, conformal coatings . . . exceptional thinness is their greatest asset. Coatings safeguard printed circuit boards (PCBs) and . . . in about one-half hour. One‐part systems, AR-coatings are easily reworked/removed. Liquid acrylic . . . *MIL-I-46058C, application of insulated coatings for PCBs, *IPC-610, appropriate coating-thicknesses . . . elasticity and overall component protection. AR-coatings display further benefits recommending them . . .
9K - last updated 2018-11-13 20:15 UTC by nevit
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