TECHNOLOGY/BUSINESS OPPORTUNITY Piezo-driven jetting of powders for controlled packing... Tender

Procurement Summary

Country : USA

Summary : TECHNOLOGY/BUSINESS OPPORTUNITY Piezo-driven jetting of powders for controlled packing density

Deadline : 11 Nov 2024

Other Information

Notice Type : Tender

TOT Ref.No.: 108564654

Document Ref. No. : IL-13847

Competition : ICB

Financier : Self Financed

Purchaser Ownership : Public

Tender Value : Refer Document

Purchaser's Detail

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Tender Details

Description

Opportunity:

Lawrence Livermore National Laboratory (LLNL), operated by the Lawrence Livermore National Security (LLNS), LLC under contract no. DE-AC52-07NA27344 (Contract 44) with the U.S. Department of Energy (DOE), is offering the opportunity to enter into a collaboration to further develop its additive manufacturing method of piezo-driven jetting of powders for controlled packing density.

Background:

An area of improvement in the additive manufacturing (AM) of metal and ceramic materials space is the ability to produce geometrically complex parts quickly and with high precision. Presently, finished parts often have significant porosity since there is limited means to control the packing of powder during printing. Moreover, current methods are designed for spreading a single material. One way of packing powder is through the use of vibration. The challenge in this approach is to apply vibrations to powder deposited on the substate without disturbing the geometry of the printed structure. The LLNL invention was able to overcome this challenge.

Description:

LLNL researchers have developed a piezo-driven jetting powder AM method that provides better control of the packing of printed powder. Powder is fed via a stainless-steel hopper to a nozzle; at the narrowest necking point the powder jams, and flow ceases. A vibrating piezoelectric element (with through-thickness vibration mode) is driven by a 150V AC signal to disturb the jammed powder, allowing it to flow through the narrow nozzle. This flow can thus be turned on and off via the piezo, and flow rates can be controlled via signal frequency, nozzle size, and powder properties. The coupling of the piezo to the nozzle is engineered for maximum vibration at the powder jamming point and at the nozzle tip to compact particles after deposition. The powder is confined between the nozzle and substrate, and as the nozzle is moved, it scrapes and vibrates against the powder, rearrangi...
Active Contract Opportunity
Notice ID : IL-13847
Related Notice
Department/Ind. Agency : ENERGY, DEPARTMENT OF
Sub-tier : ENERGY, DEPARTMENT OF
Office: LLNS – DOE CONTRACTOR
General Information
Contract Opportunity Type: Special Notice (Original)
Original Published Date: Oct 11, 2024 08:48 am PDT
Original Response Date: Nov 11, 2024 10:00 am PST
Inactive Policy: 15 days after response date
Original Inactive Date: Nov 26, 2024
Initiative:
Classification
Original Set Aside:
Product Service Code:
NAICS Code: 333248 - All Other Industrial Machinery Manufacturing

Place of Performance: Livermore, CA USA

Documents

 Tender Notice