发明人:
VILLARREAL, R., MATT | NUNLEY, TARELL, D. | COPELAND, CONNOR
摘要:
Systems and methods of this disclosure optimize the manufacturing of composite pressure vessels and structures by streamlining the fabrication of tooling and internal structures through use of additive manufacturing processes such as vat polymerization, material or binder jetting, material extrusion, and powder bed fusion to improve quality, scalability, extensibility, and cost effectiveness. In embodiments, a computer readable medium storing computer readable instructions which, when acted upon by a 3D printer, cause the 3D printer to print a mandrel (10) of a composite pressure vessel, the mandrel having a predetermined size, shape, and internal volume (10b) and including at least one end (13) having an opening (17) to the internal volume.
权利要求:
CLAIMS
1. A computer readable medium storing computer readable instructions which, when acted upon by a 3D printer, cause the 3D printer to print a mandrel (10) of a composite pressure vessel, the mandrel having a predetermined size, shape, and internal volume (10c) and including at least one end (13) having an opening (17) to the internal volume.
2. The computer readable instructions of claim 1, further comprising, when acted upon by the 3D printer, cause the 3D printer to print a fluid management device integral to and contained by the mandrel..
3. The fluid management device of claim 2, wherein the fluid management device is a baffle (31).
4. The baffle of claim 3, wherein the baffle is arranged coaxial a longitudinal centerline (29) of the mandrel.
5. The baffle of claim 4, wherein the baffle extends in a radial direction relative to the longitudinal centerline of the mandrel.
6. The baffle of claim 3, wherein the baffle includes a plurality of through holes (27).
7. The fluid management device of claim 2, wherein the fluid management device is a cylinder (25) arranged coaxial a longitudinal centerline of the mandrel, the cylinder including a plurality of though holes (27).
The fluid management device of claim 2, wherein the fluid management device divides the internal volume into at least two chambers (41). The at least two chambers of claim 8, wherein the at least two chambers are in fluid communication with one another. The fluid management device of claim 2, wherein the fluid management device is a channel (49). The fluid management device of claim 2, wherein the fluid management device is a diaphragm. The computer readable instructions of claim 1, further comprising, when acted upon by the 3D printer, cause the 3D printer to print a valve contained in part by the opening. The mandrel of claim 1, wherein the mandrel further includes a boss (15), the opening defined by the boss. The computer readable instructions of claim 1, wherein the computer readable instructions are in a slicing file. The mandrel of claim 1, further comprising, a first end section (13a), a second end section (13b), and a middle section (11).
The mandrel of claim 16, wherein the first and second end sections are domed ends and the middle section is cylindrical. The mandrel of claim 1, further comprising, an inside surface (10c) of the mandrel including an iso-grid (43). A digital representation of the mandrel of any of the claims 1 to 17. A method for producing a composite pressure vessel, the method comprising:
3D printing a mandrel, the mandrel having a predetermined size, shape, and internal volume, the mandrel including at least one end having an opening to the internal volume; after the 3D printing, smoothing surface imperfections, filling surface voids, or smoothing surface imperfections and filling surface voids; after the smoothing or filing or smoothing and filling, assembling at least one fitting to the mandrel; after the assembling, applying an impermeable film to the at least one fitting and the mandrel; after the applying, encapsulating the impermeable film by applying at preprogramed angles a carbon fiber roving and resin to the mandrel; and after the encapsulating, curing the composite pressure vessel. The method of claim 19, wherein the mandrel comprises at least two 3D printed parts, the assembling including the at least two 3D printed parts.
21. The method of claim 18, wherein the mandrel is soluble, the method further comprising, after the curing, flushing the pressure vessel with water to dissolve the mandrel.