1 / 8

Existing Information

Existing Information. Nozzle Size 30 to 500µm Nozzle tip inner diameter 250 to 410µm Nozzle tip area 49087 µm^2 Dispensing Pressure 2 to 5psi(0.137 to 0.344 bar) Sterilization filter 0.2µm Flow Rate 0.25µL/hr Nozzle tip speed 5.09x10^-9 µm/hr Type of fluid: Laminar flow.

nayef
Download Presentation

Existing Information

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Existing Information • Nozzle Size 30 to 500µm • Nozzle tip inner diameter 250 to 410µm • Nozzle tip area 49087 µm^2 • Dispensing Pressure 2 to 5psi(0.137 to 0.344 bar) • Sterilization filter 0.2µm • Flow Rate 0.25µL/hr • Nozzle tip speed 5.09x10^-9 µm/hr • Type of fluid: Laminar flow

  2. Relevant Patents to four main Systems • Method of Ink-Jet printing • Method for aligning multiple and single nozzle members in a solid free form fabrication tool • Heated Recording Chamber • Method and systems for controlling printer temperature • Method of modeling and sizing a heat exchanger

  3. Cooling System- Heat Exchanger Price range ~ $890 - $1020

  4. Delivery Method: MicroPump • Dispensing pressure range 0.137 to 0.344 bar • Flow rate ~ 0.25*10^-6 L/hr • ESX 04 E-/ADLC - Pump Model $74.00 ( water tested) • Cost ~ $500 to $700 if built according to our needs by Flight Works Co.

  5. Nozzle tip inner diameter 250 to 410 µm. Compact 3-axis table top system offers Reservoir attached to nozzle Printing System: Existing-Nozzle Flow Chamber

  6. Distance Sensor • The objective is to develop layer by layer (thickness 250 µm) biomaterial printer • Measurer device from nozzle tip to deposited layer • Cost $1249 • Optional Connectivity kit $195

  7. Rotational System: Robotic Arm, • The robot is capable of 180-degree base rotation,180-degree shoulder-moving range, 180-degree elbow-moving range,180-degree wrist rotation range, 32mm (1.25") gripper open and 3.0 oz lifting capacity. • 10” height robotic arm • Windows (98/XP) control software (included) • Availability to program the robotic arm with 1000 precise movements. • Cost : $349.00

  8. Parameters to determine • Desired coating concentration involves density and viscosity of bio-fluid • Maximum cell allowed temperature in print device • Print heat temperature sensor • Heat transfer in heat exchanger • Boundary conditions

More Related