1. Forum
  2. Fidonet
  3. EARTH

  • Researchers create highly conductive met

    From ScienceDaily@1:317/3 to All on Wed Jul 5 22:30:22 2023
    Researchers create highly conductive metallic gel for 3D printing

    Date:
    July 5, 2023
    Source:
    North Carolina State University
    Summary:
    Researchers have developed a metallic gel that is highly
    electrically conductive and can be used to print three-dimensional
    (3D) solid objects at room temperature.


    Facebook Twitter Pinterest LinkedIN Email

    ==========================================================================
    FULL STORY ========================================================================== Researchers have developed a metallic gel that is highly electrically conductive and can be used to print three-dimensional (3D) solid objects
    at room temperature.

    "3D printing has revolutionized manufacturing, but we're not aware of
    previous technologies that allowed you to print 3D metal objects at room temperature in a single step," says Michael Dickey, co-corresponding
    author of a paper on the work and the Camille & Henry Dreyfus Professor
    of Chemical and Biomolecular Engineering at North Carolina State
    University. "This opens the door to manufacturing a wide range of
    electronic components and devices." To create the metallic gel, the researchers start with a solution of micron- scale copper particles
    suspended in water. The researchers then add a small amount of an indium-gallium alloy that is liquid metal at room temperature. The
    resulting mixture is then stirred together.

    As the mixture is stirred, the liquid metal and copper particles
    essentially stick to each other, forming a metallic gel "network" within
    the aqueous solution.

    "This gel-like consistency is important, because it means you have a
    fairly uniform distribution of copper particles throughout the material," Dickey says.

    "This does two things. First, it means the network of particles connect to
    form electrical pathways. And second, it means that the copper particles
    aren't settling out of solution and clogging the printer." The resulting
    gel can be printed using a conventional 3D printing nozzle and retains
    its shape when printed. And, when allowed to dry at room temperature,
    the resulting 3D object becomes even more solid while retaining its shape.

    However, if users decide to apply heat to the printed object while it
    is drying, some interesting things can happen.

    The researchers found that the alignment of the particles influences how
    the material dries. For example, if you printed a cylindrical object,
    the sides would contract more than the top and bottom as it dries. If
    something is drying at room temperature, the process is sufficiently
    slow that it doesn't create structural change in the object. However,
    if you apply heat -- for example, put it under a heat lamp at 80 degrees Celsius -- the rapid drying can cause structural deformation. Because
    this deformation is predictable, that means you can make a printed object change shape after it is printed by controlling the pattern of the printed object and the amount of heat the object is exposed to while drying.

    "Ultimately, this sort of four-dimensional printing -- the traditional
    three dimensions, plus time -- is one more tool that can be used to
    create structures with the desired dimensions," Dickey says. "But what
    we find most exciting about this material is its conductivity.

    "Because the printed objects end up being as much as 97.5% metal, they are highly conductive. It's obviously not as conductive as conventional copper wire, but it's impossible to 3D print copper wire at room temperature. And
    what we've developed is far more conductive than anything else that can
    be printed.

    We're pretty excited about the applications here.

    "We're open to working with industry partners to explore potential applications, and are always happy to talk with potential collaborators
    about future directions for research," Dickey says.

    The work was done with support from the National Natural Science
    Foundation of China, under grant number 52203101; and from the China Scholarship Council, under grant number 201906250075.

    * RELATED_TOPICS
    o Matter_&_Energy
    # 3-D_Printing # Nature_of_Water # Electronics #
    Thermodynamics
    o Computers_&_Math
    # Virtual_Reality # Computer_Programming # Mathematics
    # Math_Puzzles
    * RELATED_TERMS
    o Gallium o Heavy_metals o Hydrogen o Metal o Cube o
    Semiconductor o Friction o Fluid_mechanics

    ==========================================================================

    Print

    Email

    Share ========================================================================== ****** 1 ****** ***** 2 ***** **** 3 ****
    *** 4 *** ** 5 ** Breaking this hour ==========================================================================
    * Why_Birds_Ancestors_Lived;_Other_Dinosaurs_Died *
    Dissolving_Cardiac_Device_Treats_Heart_Disease *
    Webb_Locates_Dust_Reservoirs_in_Two_Supernovae *
    Earth_Formed_from_Dry,_Rocky_Building_Blocks *
    Ancient_Volcanic_Activity_On_Moon's_Dark_Side *
    Highly_Conductive_Metallic_Gel_for_3D_Printing *
    Potent_Greenhouse_Gas_Could_Be_Abated_Today *
    Polymer_Brains_for_Artificial_Neural_Networks *
    Early_Apex_Predator_Sought_Soft_Over_...

    * Time_in_Universe_Once_Flowed_Five_Times_Slower

    Trending Topics this week ========================================================================== SPACE_&_TIME Black_Holes Astrophysics NASA MATTER_&_ENERGY Biochemistry
    Optics Petroleum COMPUTERS_&_MATH Communications Educational_Technology Computer_Modeling


    ==========================================================================

    Strange & Offbeat ========================================================================== SPACE_&_TIME Quasar_'Clocks'_Show_Universe_Was_Five_Times_Slower_Soon_After_the_Big_Bang First_'Ghost_Particle'_Image_of_Milky_Way Gullies_on_Mars_Could_Have_Been_Formed_by_Recent_Periods_of_Liquid_Meltwater, Study_Suggests MATTER_&_ENERGY Researchers_Create_Highly_Conductive_Metallic_Gel_for_3D_Printing Growing_Bio-Inspired_Polymer_Brains_for_Artificial_Neural_Networks Displays_Controlled_by_Flexible_Fins_and_Liquid_Droplets_More_Versatile, Efficient_Than_LED_Screens COMPUTERS_&_MATH AI_Tests_Into_Top_1%_for_Original_Creative_Thinking Turning_Old_Maps_Into_3D_Digital_Models_of_Lost_Neighborhoods NeuWS_Camera_Answers_'Holy_Grail_Problem'_in_Optical_Imaging Story Source: Materials provided by North_Carolina_State_University. Original written
    by Matt Shipman. Note: Content may be edited for style and length.


    ========================================================================== Related Multimedia:
    * Metallic_spider_printed_at_room_temperature_using_the_metallic_gel ========================================================================== Journal Reference:
    1. Ruizhe Xing, Jiayi Yang, Dongguang Zhang, Wei Gong, Taylor
    V. Neumann,
    Meixiang Wang, Renliang Huang, Jie Kong, Wei Qi, Michael D. Dickey.

    Metallic gels for conductive 3D and 4D printing. Matter, 2023; 6
    (7): 2248 DOI: 10.1016/j.matt.2023.06.015 ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2023/07/230705115147.htm

    --- up 1 year, 18 weeks, 2 days, 10 hours, 50 minutes
    * Origin: -=> Castle Rock BBS <=- Now Husky HPT Powered! (1:317/3)