Getting scanned complex parts.
Dume, Adrian ; Cosma, Cristian ; Stan, Daniel 等
1. INTRODUCTION
Rapid production is the use of methods of rapid prototyping (RP) to
manufacture final end-use parts. Manufacturing companies are beginning
to explore this idea as they seek methods and strategies of producing
finished products more quickly than has been possible in the past.
Delays in tooling translate into lost market share when a
company's competitors move swiftly, so rapid production can help
reduce, or in some cases, eliminate these delays. Indeed, when only
hundreds or a few thousands parts are needed, methods of rapid
production may prove to be a viable replacement to injection molding.
The use of RP patterns for the production of metal castings for
finished products is another important strategy that companies are now
considering. Several factors will determine whether it makes sense to
consider methods of RP for manufacturing. Companies that make parts that
are relatively small and in relatively low quantities will be the first
to embrace it.
Also, when the cost to produce parts is high, it may be less
expensive to use methods of RP to manufacture the parts. Parts that do
not require a high quality surface finish and are hidden from view are
also good candidates.
In cases where tens or hundreds of thousands of parts are required,
it may be feasible to produce and deliver finished parts using methods
of rapid production in parallel with the creation of tooling.
This approach would permit the company to sell and gain valuable
feedback on the product while waiting for the tooling and injection
molded parts (Cosma et al., 2005).
2. METHODOLOGY FOR OBTAINIG A SOLID MODEL FROM A VIRTUAL MODEL
He took as example the of a realization complex humpback stamp die
from the nest casts "mask". These extrapolation even if has
one doubtful elements offers the entire sum the possibility of a
realization notices with big degree of the generalization and
utilization.
He directed to the possibility identification of the problems and
the solutions of improve the procedures of scan, model and prototyping
for which mark can be classified exhibitive of the study of a cavities
casts in the case realization through inject.
He started from a mask from material ceramic represented the in
figure 1. From this he passed to the scanning process for the
realization of virtual model (Wang et al., 2008).
[FIGURE 1 OMITTED]
[FIGURE 2 OMITTED]
After the process of began the software Dr. PICZA show us
estimative the and the guy the total on which has it of realize the
pick-up on the desirable surface were scanning and form which render it
an in abaft scanning a such surface with shown the in figure 2.
After the whole realization of the process of scan ultimate form
result is represented the in figure 3.
For the solid procurement surface scanning and therefore the
realization of physical model, license the definiteness of specific
which algorithm uses software's snowed and usual, but he reduces
substantially number of necessary attempts.
3. CASE STUDY
[FIGURE 3 OMITTED]
[FIGURE 4 OMITTED]
The size of the file of the result is stricken direct of the
established methodology scanning, respectively for scan it of big
fineness (that is from 0.10 mm) resulting a file of capacity 3.77 Mb.
After a check of a form results is can passed to next step scilicet to his rescue the export of the file of the result. In order to verified
form obtained the in abaft the process of scan determined as this file
is saved in the shape of cloud of points having the extension <points
cloud> just as shown the in figure 4.
Former were the transformation of the cloud of points in Mesh. Such
as do so to the utilization of the mode Mesh Prep Wizard from the
framework of the software Solid Works 2008.
The importation mesh in Solid Works indicates what problem appears
due to the process of scan through contact. In order to solve these
problems arrived at the conclusion as the file output in trace of the
process of scan is due to approach form of mesh. This mesh is imported
then in CATIA below the extension of mesh rise from the software Solid
Works.
For the verification of the form obtained the in abaft the process
of scan he made ones choice for a software can be easy available from
require a preparation previously, and the costs of his acquisitions is
minimum. From these considerations he made ones choice for the
utilization of the program of projection 3D Solid Works (Chang &
Chung, 2009).
This mesh is imported then in CATIA below the extension of mesh
rise from the software Solid Works (figure 4).
Using then the mode of mesh from framework of the software CATIA,
he succeeded in mended this still more selected his discommodity can
utilize this complex form farther in process.
After certified attentive but that he exists no surface of patched
shall take again the method with help of the software Solid Works but
starting this time from this mesh from the cloud of points output in
trace scanning.
[FIGURE 5 OMITTED]
[FIGURE 6 OMITTED]
Is noticed very clear he is the fact as the file the result from
Solid Works in the shape of STL be used farther in processing, led to
his importation in CATIA and the rescue from CATIA below the extension
STL (Cosma et al., 2008).
This extension from CATIA can be used-up of any program of
processing and the numerical control (figure 5, figure 6).
When choosing the pieces that we want to scan must know exactly
what the result will be obtained (the virtual model).
Piece must fall within the limits of the machine MDX MODEL 15,
meaning it can be easily scanned and not exceed the area of the machines
scanned MODEL MDX 15.
If you wish to obtain a virtual 3D model and more precisely to the
model should be scanned to keep account of the fact that it is
influenced by the configuration of the part.
As part configuration is more complex with both the scanning time
increases, and the size of the file scan result after doubles (this
implies the use of superior hardware configurations. For these reasons
you must keep in account the time of the CAM. In order to solve these
drawbacks to trying to use more than one CAD programs.
File obtained after scanning and geometric modeling can be used for
further processing, for CNC and rapid prototyping machines (Weinert et
al., 2008).
4. CONCLUSION
Develop a study on the scanning and generation of virtual design
for parts with complex surfaces that can create virtual models that
define the cavity nests mould and algorithm research imperfections of
digitizing using the software in combination: Dr. PICZA, Solid Works
2007, and CATIA.
This algorithm allows corrections "gaps" in training mesh
highlighted the virtual model by successive passages in different
formats and the software used to obtain a virtual model for a successful
Prototyping.
The most important problem in the complex surfaces found in the
impossibility of scanning hidden surfaces and glossy surfaces.
As future research we will try to create a methodology of obtaining
solid models of scanning parts using the most common CAD software.
5. REFERENCES
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Conference on Manufacturing Engineering ICMEN and EUREKA Brokerage
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Wang, J.; Oliveira, M.; Zhang, H. & Kaufman, A. (2008)
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