Basics

• A term for the Coating of a Product (or Structure/Vehicle, although that may be better addressed on another page) in an Elastomer
• In Product Design/Advertising, it is often Called:
  • ”Rubber Armor”
    • Although this can be a BIT misleading as Latex is rarely used
  • ”Non-Slip Coating”
    • The “grippy-ness” of the Elastomer can help prevent dropping something etc
    • Also can help with the Ergonomics / Accessibility of things, OXO Good Grips is an example of this
    • The Oily/Wet Non-Dominant Hand Test is an interesting test that simulates dexterity issues quite well for otherwise able bodied people
      • Link to the product reviewer’s videos here

Options

Overmolding

• This is the highest quality (industrial) method
• A specialized Injection Molding machine is used such that one “shot” is done shortly after, and directly OVER the previous “shot”
• Often done for the handles of Power Tools etc
  • For instance a “core” of Glass Filled Nylon surrounded by a TPU of some sort
• Features/Finishes can be designed into the elastomeric surface via Injection Molding Design

Dip Molding

• This produces a smooth coating, and can be done with many products (even aftermarket)
• Main issue is it requires some surface prep, is more limited in how it cam be used, and can ONLY be used for a smooth surface

Spray Coating

• Essentially uses an Elastomeric Paint (Akin to that used along with Crumb Rubber in Playground Surfacing (The material used in Playgrounds / Splash Pads etc
• Can form a thin layer + get into “nooks”
• May also be able to be foamed if a Blowing Agent is included
• Depending on coating quality/number of coats etc may present more of a flaking risk than dip coating
  • Especially so if Foamed
  • This also ties into MNP Pollution concerns

Multi-Material Printing

FDM

• A Toolchanger 3D Printer or Hotend Changer 3D Printer can print not only different colors, but also different materials
• For instance PLA and TPU
• Joinery -like features can also be used to interlock the materials

MJF

• Different “inks” could be used
• Similar joinery like structures could be used also

SLS or SLA etc

• These processes do not lend themselves to Elastomer use, short of as a separate part
• SPD could potentially do so if the powders flow well enough to the toolhead+melt/consolidate sufficiently

Concerns

Internal Links

External Links