/ 3D Engineering
At ACEROS CORONA we make models for casting in wood, polystyrene, resin, plastics and metals that are perfectly adapted to the needs of our customers.
The extensive experience in the sector and the qualified team that we have, endows us with a know-how that allows us to advise our clients in deciding the type of model that best suits their manufacturing process.
We not only manufacture models for foundry, but we repair and / or reform all kinds of models. With this we manage to increase its useful life and lower costs for our customers.
Get to know our different techniques
- Wood Models
- MDF models
- Epoxy Resin Models
- 3D Plastic Models
- Telgopor
- Aluminum Models
- Noyo box
- Model Repair
3D scanning, digitization and reverse engineering service.
With ACEROS CORONA you will obtain the most accurate scanned files of both large and small parts in 3D, whether technical or artistic, thanks to the best 3D scanning technology. Everything in the file format you need.
We offer the scanning service to companies, professionals and individuals who require a fast, professional service at an affordable price.
precision
resolution
10mm to 10 m
professional
in color
0,02 mm precision | 0,01 mm resolution |
Pieces from 10mm to 10 m | 3D editing
professional |
3D scanning in color |
How we apply our 3D scanning technology in your projects
Precision | Resolution | Object size | Color capture | File formats |
From 0.02mm | From 0.01mm | From 10 mm to 10 meters | Yes | STL, OBJ, PLY, IGS, STEP, SW |
Precision | From 0.02mm |
Resolution | From 0.01mm |
Object size | From 10 mm to 10 meters |
Color capture | Yes |
File formats | STL, OBJ, PLY, IGS, STEP, SW |
3D part scan
We deliver scanned file
We reverse engineer
Thanks to the precision of our equipment, we can scan any kind of parts with great accuracy. From a small piece of 10 mm to objects of 10 meters.
Whether they are matte or shiny objects, our devices allow them to be scanned without any problem.
How we work?
Step 1
Step 2
Step 3
What is 3D printing?
3D printing is an additive manufacturing process that creates a physical object from a digital design. There are different technologies and materials that you can 3D print with, but they are all based on the same principle: a digital model is turned into a solid, three-dimensional physical object by adding material layer by layer.
How does it work?
The FDM (Fused Deposition Modeling) printing process begins with a digital design and selection of the material to be used, called filament.
The filament is guided from the spool to the extruder of the 3D printer that melts the material.
Once cast, the material can be extruded in a specific, predetermined path created by the software on the computer.
As the material is extruded layer by layer, it cools and solidifies, providing the basis for the next layer of material until the object is finished.
Trying to print without a layout file is like trying to print a one-sheet document without a text file.«
At ACEROS CORONA, we currently have the following materials:
ABS: It is a very resistant plastic to impact. It is used in the automotive industry, in the manufacture of toys, in household appliances, and of course in 3D printing. It is the result of the synergy of 3 monomers, obtaining the best properties of each of them.
PLA: It is a thermoplastic aliphatic polyester derived from renewable resources, from products such as corn starch, cassava or sugar cane. It can biodegrade under certain conditions, such as the presence of oxygen.
PLA MAX: PLA MAX has been formulated with special additives that give it properties far superior to conventional PLA. With it, printed pieces of very high dimensional stability are obtained.
FLEX: This material allows the creation of elastic pieces. Maximize the possibilities of your idea, creating pieces that require shock absorption, cushioning, etc. Ideal for creating slippers, sandals and cell phone cases.
PC/ABS: It is a mixture of polycarbonate (PC) and acrylonitrile butadiene styrene (ABS), from the synergy of both, a combination of high resistance to heat and impacts (polycarbonate) and exceptional processability (ABS) is obtained. greater than that of PC or ABS separately. PC / ABS printed parts will have: high impact resistance even at low temperatures, high strength, high rigidity, low total shrinkage and high dimensional accuracy.
This material is very sensitive to humidity, so it is very important to keep it in an airtight container with a desiccant.
NEW SLA 3D PRINTING SERVICE
3D printing is an additive manufacturing process that creates a physical object from a digital design. There are different technologies and materials that you can 3D print with, but they are all based on the same principle: a digital model is turned into a solid, three-dimensional physical object by adding material layer by layer.
How does it work?
We incorporate stereolithography for the production of better prototypes, this uses laser technology to convert liquid resins into solid objects layer by layer. With SLA technology we can achieve parts with the highest quality and precision.
Its excellent finish does not require subsequent processes.
Layers from 0.1 to 0.025 millimeters, surfaces that are soft to the eye and smooth to the touch.
Outstanding Features:
- Maximum resolution of details.
- Maximum precision (0.1 - 0.025 mm).
- Strength of the material.
- Easy to make threads, gears, and small diameter holes.
Finite Element Analysis Software
Finite element analysis is a computerized method of predicting how a product will react to real-world forces, vibration, heat, fluid flow, and other physical effects. Finite element simulation allows you to see if a product will break, wear, or perform as expected. It's called analytics, but in the product development process, it's used to predict what will happen when a product is used.
Finite element analysis breaks down a real object into a large number (between thousands and hundreds of thousands) of finite elements, like small cubes. Mathematical equations allow predicting the behavior of each element. Then a computer adds up all the individual behaviors to predict the actual behavior of the object.
Finite element analysis predicts the behavior of products affected by a variety of physical effects, including:
- Mechanical stress
- Mechanical vibration
- Fatigue
- Movement
- Heat transfer
- Fluid flows
- Electrostatics
- Plastic injection molding
ACEROS CORONA solutions for manufacturing
Software for finite element analysis and simulation for product design
Simulation Mechanical
CFD, CFD Viewer
Moldflow
Inventor Professional
Collection for product design and manufacturing
Robot Structural Analysis Professional
Simulation MechanicalStudy finite element analysis and simulation of mechanical events. | CFD, CFD ViewerUse computerized fluid dynamics models to compare design alternatives. | ||
MoldflowOptimize and validate your injection molding process. | Inventor ProfessionalDevelop, manage, and deliver quality products with digital prototyping capabilities. | ||
Colección para el diseño y la manufactura de productosGet a fundamental set of engineering, simulation and product design tools for one great price. | Robot Structural Analysis ProfessionalCalculate and analyze large and complex structural models. |
Simulation MechanicalStudy finite element analysis and simulation of mechanical events. | |
CFD, CFD ViewerUse computerized fluid dynamics models to compare design alternatives. | |
MoldflowOptimize and validate your injection molding process. | |
Inventor ProfessionalDevelop, manage, and deliver quality products with digital prototyping capabilities. | |
Colección para el diseño y la manufactura de productosGet a fundamental set of engineering, simulation and product design tools for one great price. | |
Robot Structural Analysis ProfessionalCalculate and analyze large and complex structural models. |