Andaltec is a non-profit national plastic technology center in Spain with 132 employees focused on research and development to improve competitiveness in the plastic sector. It has facilities including laboratories, a 4,000m2 Box 1 for offices and training, and a 6,000m2 Box 2 for prototypes and small-scale testing. Andaltec's areas of activity include materials, products, and processes for industries like automotive, lighting, packaging, aeronautics, and more. It offers services like product and process simulation, validation testing, and process optimization to support clients.
FT-F1 is professionally applicable to the fogging characteristics evaluation of volatile constituents of decorating materials used in cars and aircrafts, e.g. plastic articles, polyurethane, textiles, leather, adhesives, non-woven and thermal forming elastomers at high temperature conditions
FT-F1 is professionally applicable to the fogging characteristics evaluation of volatile constituents of decorating materials used in cars and aircrafts, e.g. plastic articles, polyurethane, textiles, leather, adhesives, non-woven and thermal forming elastomers at high temperature conditions
Graph and filler paper for math and science homework James Smith
Uploaded at the request of friends. Two-sided, with a fine-lined 5mm grid that prints in a shade of blue that will not show up in photocopies. Has mirror margins (i.e., has extra room on the inside margin) with a space on the right-hand side of the page for making comments on the main text.
On July 10th Innovate UK and the KTN held a business innovation day to showcase 30 of the Innovate UK projects that are currently active in the area of Additive Manufacturing. The presentations and pitches made on the day are now available to download. Topic 3 focuses on Post Processing
The importance of advanced lightweight material characterization and AI for s...marketingnxp
This PowerPoint presentation delves into the vital intersection of advanced lightweight material characterization and artificial intelligence (AI) in the realm of sustainable plastics manufacturing. In an era where environmental concerns and resource efficiency are paramount, understanding the significance of these cutting-edge technologies is crucial. Attendees will explore how precise material characterization techniques enable the creation of lighter and eco-friendly plastics, which can significantly reduce their environmental impact. Furthermore, the integration of AI adds a new dimension to process optimization, ensuring that plastics manufacturing becomes more sustainable and efficient. This presentation offers insights into the key concepts, applications, and potential benefits of these technologies in the pursuit of a greener and more sustainable future for the plastics industry.
Sensor-based, Data-driven Optimization of Composites Manufacturing.pptxmarketingnxp
This is the presentation of the speech of Dr. Nicholas Ecke at SAMPE Europe Conference Madrid 2023.
Plastics manufacturing can be unpredictable. Deviations in material batches, moisture content, machine calibration, among other variables, lead to issues in manufacturing quality and final part properties.
New technology has been developed to combine dielectric analysis with machine learning and material models, allowing for dynamic adjustments to machine settings, removing uncertainty from your process, and optimizing cycle times.
Graph and filler paper for math and science homework James Smith
Uploaded at the request of friends. Two-sided, with a fine-lined 5mm grid that prints in a shade of blue that will not show up in photocopies. Has mirror margins (i.e., has extra room on the inside margin) with a space on the right-hand side of the page for making comments on the main text.
On July 10th Innovate UK and the KTN held a business innovation day to showcase 30 of the Innovate UK projects that are currently active in the area of Additive Manufacturing. The presentations and pitches made on the day are now available to download. Topic 3 focuses on Post Processing
The importance of advanced lightweight material characterization and AI for s...marketingnxp
This PowerPoint presentation delves into the vital intersection of advanced lightweight material characterization and artificial intelligence (AI) in the realm of sustainable plastics manufacturing. In an era where environmental concerns and resource efficiency are paramount, understanding the significance of these cutting-edge technologies is crucial. Attendees will explore how precise material characterization techniques enable the creation of lighter and eco-friendly plastics, which can significantly reduce their environmental impact. Furthermore, the integration of AI adds a new dimension to process optimization, ensuring that plastics manufacturing becomes more sustainable and efficient. This presentation offers insights into the key concepts, applications, and potential benefits of these technologies in the pursuit of a greener and more sustainable future for the plastics industry.
Sensor-based, Data-driven Optimization of Composites Manufacturing.pptxmarketingnxp
This is the presentation of the speech of Dr. Nicholas Ecke at SAMPE Europe Conference Madrid 2023.
Plastics manufacturing can be unpredictable. Deviations in material batches, moisture content, machine calibration, among other variables, lead to issues in manufacturing quality and final part properties.
New technology has been developed to combine dielectric analysis with machine learning and material models, allowing for dynamic adjustments to machine settings, removing uncertainty from your process, and optimizing cycle times.
ITMA Materials Technology is a Research and Technology Organization, aiming at providing solutions to industry by means of R&D Projects, Technical Assistances and Technological Services. Check out more info at our website.
Curriculum Vitae
Scope:
• PLASTIC PIPE PRODUCTION, QUALITY, SPECIALIST
• Plc & Automation Specialist for Plastic Pipe Industries
FAROOQ RASHEED ANSARI FROM PAKISTAN
Achievements Summary
23 Years of dedicated and focused working Field Experience in the Plastic pipe industry,
Experienced as a Plastic Pipe Technologist.
Regarding Production units:
• Experience with 10 mm to 1200 mm PIPE Size Production at Different Production Units
Regarding Production:
1. Multi-Layer PP-MD Ultra Acoustic Pipe and Fittings,
2. MD, LD, HDPE (Water and Gas),
3. UPVC PVC, CPVC, UPVC Electrical and Telecom Conduit Pipes
4. PPRC, PEX, PERT, PP-RCT, UV & Composite & Solid Multi-Layer Pipe and Fittings,
5. COD, Micro-Duct, Electrical and Telecom Conduit Pipes, Spiro PIPE, etc.
Regarding Department:
• Production, Quality, and Maintenance
Regarding international Production and Quality Standards.
• DIN, ISO, Astm, BS, EN, SE CO, SASO, GSO (STC, ZAIN, MOBILY)
Like,
1. PPR: DIN 8077/78, ISO 15874, DIN 16962
2. PEX: ISO 15875, DIN 16892/93, ASTM 2788
3. PERT: ISO 22391-1,2
4. Multilayer piping system: ISO 21003, TSE K 28, TS 13715
5. PPMD: EN 1451, EN 14758
6. PE: 4427, 4437,
7. UPVC PRESSURE: ASTM D1785, D2665, BS 3505, DIN 8062, BS EN 1452,
8. UPVC NON-PRESSURE: BSEN 1401, BSEN 1329, DIN 19534, BS EN 4514, BS 5255, AUS/NZ 1260,
9. UPVC CONDUITS & DUCTS: BS 4607, BS 6099
10. CPVC: ASTM F441
Regarding international Quality testing Standards.
• DIN, ISO, Astm, BS, EN, SE CO, SASO, GSO.
Like,
1. Dimensions - DIN EN ISO 3126:2005-05
2. Density test - ISO 1183
3. MFI- ISO 1133, D1238
4. Fiber impact - ISO 11173, EN 1411
5. Thermal expansion - DIN 53752
6. Heat Reversion - ISO 2505
7. HPT - ISO 1167
8. Ppr impact - ISO 9854-1,2, DIN 8078:2008, pendulum ISO 179-1
9. Pex crosslinking - ASTM 2765
10. LTE - DIN 53752
11. Homogeneity - ISO 18553:2002-03
12. Drainage Fittings Impact test - ISO 13263
Brass PPR Fitting related.
1. Brass and gauge dimensions - EN 10226-1,2,3
2. Brass thread- DIN 2999
3. Brass testing - EN 1254-3
4. Brass/Steel material related - EN 10088-1, BS 2767
5. 13263, 13245, 13257 13257, 13259,
Regarding international accreditation organizations:
SKZ, WRAS, DVGW, BQSR, SGS, SABER, NSF, AENOR, KIWA,
Experience with (10 mm to 1200 mm PIPE Size) Different Production lines like
• battenfeld-cincinnati
• Kabra Extruder
• KraussMaffei
• BASAR MAKINA
• SICA
• TECNOMATIC
• Rollepaal
• Reifenhäuser
• Fangli,
• Jwell
• Jinhu
• DAKUMAR
• BEIER EXTRUDER
• Tongda machinery
• MARKEM IMAJE
• CONPRO. Gravimetric System
• Inoex Saveomat M2 Automatic Wall Thickness & Weight Controller.
• SAP & ORACLE ERP NETSUITE (IMS, ERP)
• LEAN SIX SIGMA, OEE, TPM, PDCA, DMAIC, 6S,
Have great experience & skills with
• Mechanical maintenance activity, like Complete Extruder Line of Any Size (Vacuum Unit, Vacuum Pump, Showering Unit, Water Pump, Sleeve, Die, Cutter, Haul-Off Unit Etc.)
• Screw and barrel installation, (twin screw pa
IMPROVEMENT OF PRODUCTIVITY AND QUALITY IN THE WIND ENERGY INDUSTRY THROUGH THE USE OF AN ADVANCED SENSOR SYSTEM , presented at SAMPE-Europe Conference 2017,
Stuttgart, November 15th 2017
Tampere Wear Center activities and research equipment 2015Kati Valtonen
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry.
TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners.
Tampere Wear Center & Research equipment 2014Kati Valtonen
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry.
TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners.
How Machine Learning and Cloud Technology turn Plastics Manufacturers into Da...marketingnxp
This engaging PowerPoint presentation sheds light on the transformation of plastics manufacturing through the powerful combination of machine learning and cloud technology. Plastics manufacturers are increasingly becoming data-driven powerhouses, and this presentation explores how these technologies play a pivotal role in this evolution. Attendees will learn how machine learning algorithms can harness vast amounts of data to optimize processes, improve quality control, and enhance overall operational efficiency. Moreover, the integration of cloud technology enables real-time data access, collaboration, and scalability, fostering a new era of smart manufacturing. Discover the key insights, benefits, and practical applications of machine learning and cloud technology in the plastics industry, and how they are shaping the future of this vital sector.
The popularity of additive manufacturing in the medical device manufacturing industry is growing thanks to the ability to print solid substrate and lattice structure for implant fixation in a single step. Printing a lattice structure is not only a matter of design, but it also requires the ability to process the foam-like structure in a way that make it usable in the human body. Cleaning, in this specific case, removes loose particles and/or contaminants from such structures. To achieve this objective, a mechanical and dry step has been developed to remove the majority of loose particles without adding any substance to the lattice structure. Following steps based on chemical etching of the titanium surface on a lattice structure can be used to remove the remaining particles and to modify the structures’ surfaces to enhance osteoconductivity. Where machining lubricants must be removed, we are seeing promising results in developing a proper cleaning step with specific detergents, which avoids any detectable residual in the foam but is capable of completely removing contaminants.
2. • Type
Non profit-making organisation.
National Plastic Technological Centre.
Activity started in February 2005
• Main Goal
To improve the competitiveness of the PLASTIC sector through R+D+ innovation
Organization
Human Resources
• Highly qualified Staff
• 132 people (85% are PHD / Doctors or University graduates)
Sectors of activity
Automotive
Lighting
Packaging
New advanced materials
Aeronautic
4. Main strategic lines for Andaltec R&D+i
Development of light reflection systems.
Nanotechnology and Nanoscience.
Active and Intelligent packaging .
Recycling and Biodegradability.
New advanced materials
Operations Improvement.Operations Improvement.
New Production Processes.
5. Facilities
Box 1 (4.000 m2 )
Offices
Laboratories
Accommodation space available
Training
Assembly hall
Box 2 (6.000 m2 )
Prototypes
Small scale testing
Photometric tunnel
Optic laboratories
6. Current areas of activity
MATERIALS PRODUCTS PROCESS
Product Validations:
Static Simulations
Dynamic Sim.
Crash Sim.
Thermical Sim.
Prototyping
Lab Test
New advance materials:
Bioplastics
Nanocomposites
Green Materials
Recycling
Additives
Production optimization:
Process Layout
Injection moulding
Small scale testing
Process Simulations
7. Product & Process
Engineering
DESIGN AND DEVELOPMENT OF NEW PRODUCTS
The definition of technical specifications for new products.
• Failure Modes and Effects Analysis (FMEA)
• CAD design of plastic and metal parts (CATIA V5 and SOLIDWORKS)
• Conceptual and detailed design.
• Choice of materials and manufacturing technology.
• Estimation of production, product and tooling costs• Estimation of production, product and tooling costs
• Problems analysis with 5W / 2H and PDCA
8. Product & Process
Engineering
PRODUCT SIMULATIONS
• Mechanical: Static, dynamic and crash analysis to check product specifications.
Software: RADIOSS, ANSYS MECHANICAL
• Thermical: Analysis with different thermal conditions, temperature ranges and thermal
resistance of system components.
Software: ANSYS FLUENT
• Optical: Optic design and performances simulation against ECE, SAE regulations andOptical: Optic design and performances simulation against ECE, SAE regulations and
customer requirements
Software: ASAP & Lucidshape
9. Product & Process
Engineering
PROCESS SIMULATIONS
• Rheology: Mold feature Optimization to improve the production process, validating the
part design, predicting deformation defects, warping post-molding…
Set up the injection molding parameters. Detection of part defects, fiber orientation
over molding, cooling system, molding cycle, etc..
Software: MOLDFLOW
•Process: Development of a full digital factory to analyze statistics on production results,
performance, workload, bottlenecks... therefore trying to reach an optimal productionperformance, workload, bottlenecks... therefore trying to reach an optimal production
processes.
Software: QUEST, Delmia
10. Product & Process
Engineering
PROCESS SIMULATIONS
Liquid Composites Molding (LCM).
Software: PAM-RTM
• To define and optimize:
– LCM strategy (RTM, CRTM, VARI…)
– Location of injection gates, vents and vacuum ports
– Size, type and location of flow media
– Injection pressure or flow rate– Injection pressure or flow rate
– Temperature cycle
– Curing Process
• Through the prediction of:
– Filling and Curing time
– Dry spots
– Flow front velocity
– Pressure in the mold
– Void content
• Taking into account
– Fiber angle variation (permeability variation) of the preform
11. Laboratories
Andaltec offers the comprehensive management of the validation tests of parts or
components to guarantee compliance with specifications according to the industry
standards (ISO, UNE, ASTM..) or the customer requirements.
Physical – Chemical Lab.
Process Lab: Injection, Extrusion And Thermoformed.
Metrology Lab.
Optical And Photometric Lab.
Electronic Lab.Electronic Lab.
Biodegradability - Compostability
12. Phys. – Chem.
Laboratory
• Complience on EU Food Contact Regulation: Overall migration Overall migration testing a
according to EN 1186, specific migration and residual substance content.
ENAC Accreditation UNE-EN ISO 17025
• Barrier Properties: Water Vapour Transmission Rate (WVTR) and Oxygen.
• Packaging Composition Testing: Trace chemical analysis, Heavy metals, Plastics.
• Optimize packaging products and processes.
TEST FOR FOOD CONTACT MATERIAL
• Optimize packaging products and processes.
• Physical testing of packaging materials: Tensile tests, abrasion tests, tearing tests, dart
impact tests etc…
• Organoleptic testing.
13. Phys. – Chem.
Laboratory
MATERIAL CHARACTERIZATION TESTS
• Mechanical and optical properties: Compression, flexural and tensile properties,
Charpy impact, Shore, Brinell and Vickers hardness, HDT – Vicat, Colour, Brightness,
Density, Melt flowindex, Kofler melting point,Peeling test, Shear test, Abrasion tests,
Tearing tests, Dart impact tests, Bending, Roughness coefficient,...
• Identification of materials: Infrared spectroscopy (FTIR), Thermal analysis of materials
(DSC, TGA), Gas chromatography, Electron microscopy,...
• Rheological analysis.
• Resistance to chemical products.• Resistance to chemical products.
• Leak tightness (high-pressure spraying, infiltration and dust).
14. ACCELERATED AGEING TESTS.
• Climatic testing and accelerated ageing
• Salt fog testing: Determination of the effects of exposure to damp heat, water spray
and saline mist.
• Artificial ageing. Exposure to artificial radiation (Xenon and ultraviolet light accelerated
aging tests).
Combined cycles of temperature and humidity
• Thermal shock testing
Phys. – Chem.
Laboratory
15. • 3D measurement of parts, tools and
gauges of up to a maximum size of 1200
mm x3000 mm x1000mm and 2250Kg.
• 3D measuring on CAD.
• 2D measurement by profile projector.
• Regular monitoring of production and
product tolerances.
• Reverse engineering by 3D scanning for
dimensional control.
Metrological
Laboratory
16. Process Lab.
PILOT PLANTS
• Plastic part injection.
• Extrusion and mixing of plastic materials.
• Sheet and blown film extrusion.
• Thermoforming.
• Filament extrusion.
• Compounding.
• Pilot scale and lab scale processing.
17. Process Lab
• Testing to check mould functionality,
determination of optimal injection
parameters, cosmetic and dimensional
validation, cycle time optimisation....
• Full validation of mould for the process,
including getting the mould into operation
as well as the optimisation of the process
in facilities which will be held the final
INJECTION PROCESS
in facilities which will be held the final
production in.
• Technical support in following up of
those projects where the tested mould is
involved in.
INJECTION MACH. 150 TON
18. • Development of new nanocomposites in order to improve the properties of conventional
plastics.
• Development of new plastic composites by means of the addition of fibers, mineral
fillers, carbonaceous particles,….
• Replacement of products made of metal, ceramic or glass with plastic materials in order
to facilitate their recyclability and reduce production costs.
• Analysis of the sustainability and recyclability of products.
Process Lab
EXTRUSION PROCESS
TWIN SCREW EXTRUDER,
CO-ROTATINGTO MIX MATERIALS
(PELLETS AND THREAD).
INJECTION OF NORMALIZED PARTS FOR THE
CHARACTERIZATION OF THE EXTRUDED MATERIAL
20. Process LabLASER WELDING PROCESS
In technical terms the joiningThe project concept is based
Laser welding equipment to validate
plastic products manufacturing processes.
LASER WELDING Equipment
In technical terms the joining
properties will be governed mainly
by:
the kind of plastic (or composite);
opaque or transparent
The kind of metal
the structuring on the metal and
the laser irradiation conditions
The project concept is based
on the application of laser
sources with two main
objectives:
to modify the surface of
the metal (structuring) to
prepare it for the joining of
the plastic
to obtain the laser joining
between both materials
based on a plastic melting,
without phase transformation
in the metal.
21. Electronic Lab.
• PCB design (single/multi-layers), (Orcad, Altium)
• Hardware selection in several applications (medical, automotive, aeronautical),
• Design with microcontrollers, microprocessors and FPGAs.
• Development of high speed circuits
• Firmware development for Embedded Systems (C/C++, Java, RTOS). (Eclipse/Keil
uVision)
• Artificial neuronal networks and genetic algorithms. (ANN & Fuzzy Logic)
ELECTRONIC LAB
• Artificial neuronal networks and genetic algorithms. (ANN & Fuzzy Logic)
• Electronic assembly for prototypes.
• HW & SW of Excellence.
22. Optical Lab.
EQUIPMENT:
•Simulation of road tunnel 80 x 20 x 4m with
three lanes more to control vehicle lighting systems,
optimized road to detect changes about color and
intensity.
System for the development and installation of new
optical groups without leaving the facilities,
OPTIC LAB. FOR LIGHTING SYSTEMS
optical groups without leaving the facilities,
ensuring confidentiality.
• Photometric tunnel with goniophotometer (LMT
GO-H-1400) and cells about 25,10 and 3.16 meters,
colorimeter about 25 and 3.16 meters to validating
vehicle lighting systems to EU markets, USA, China
or Japan.
• Retro-reflectómeter in three angles.
• Integrating sphere (LMT U1000) about 1meter of
diameter to characterize light sources
23. Optical Lab.
• Determination of photometric values and
distribution curves.
• System characterization (goniometer)
• Colorimetry.
• Reflection of reflectors.
• Characterization of photometric court.
• Fitting of Lighting systems
OPTIC LAB. FOR LIGHTING SYSTEMS
• Fitting of Lighting systems
• Verification for compliance of the ECE
regulatory and others specifications required for
the homologation.
ANDALTEC PHOTOMETRIC TUNNEL HAS THE
FOLLOWING DIMENSIONS: 80m LONG X 20m WIDE.
THIS IS THE LARGEST PHOTOMETRIC TUNNELIN
SPAIN AND ONE OF THE LARGEST IN EUROPE.
24. • Biodegradability (ISO 14855-1:2012)
Determining the ultimate aerobic biodegradability of plastic material under controlled
composting conditions. Method by analysis of envolved carbon dioxide. 90% must be reached
in less than 6 months.
• Disintegration (ISO 16929:2002).
Determination of the degree of disintegration of plastic materials under defined composting
conditions in a pilot-scale test. Below 10% of residual material with dimensions higher than 2
mm
• Compost quality
Biodegradability
Lab.
GREEN MATERIALS
• Compost quality
Absence of negative effects on the composting process.
Composition (levels of heavy metals)
Quality of the compost (agronomic value, pH, salinity, volatile solids, N, P, Mg, K)
Eco-toxicological effects (growth of plants, according to the OECD test 208, modified).
25. Idea
3D PrintingCNC
Identification of requirements
Functional model
Prototypes
Silicon
Mould
Metallization
Testing
PaintingPolishing
Small number of parts
Good surface properties
Validation of requirements
Graining CoatingPolishing Surface optimization
26. 3D Printing
PrototypesPrototypes
Equipment Usable size Tech.
Res. (x,y)
um
Thick. (z)
um
Projet 5500X 533x381x300 MPJ 34 29
Form1 125x125x165 SLA 300 25-200
3D Blueprinter 160x200x140 SHS 100 100
JCR 1000 Pro 1000x600x600 FDM 100 50-500
Cube 3 152x152x152 FDM 100 75-200
Projet 1200 43x27x180 DLP 56 30
Witbox 3D Printer 290x210x200 FDM 50-300 80
27. CNC
Milling machines optimized for prototyping models:
• DMG Mori - 5axis CNC
• DMG – 3axis CNC
• Manual Lathe
Prototypes
CNC kRPM Dimensions
DMU 80 Evo 42 800x650x550DMU 80 Evo 42 800x650x550
Deckel FP3A 4 400x400x400
28. • The Vacuum Casting Technology allows us to create polyurethane resin parts
by using a silicone mould. To manufacture this mould, we usually use a
pattern made by stereolithography. Nevertheless, we can build a silicone
mould almost using any piece made with other technologies as a master
piece: sintering, FDM, machined, modified old part...
• A short set of serial parts can be produced with polyurethane resin with
characteristics like flexibility, transparency, high temperature resistance,
Prototypes
VACUUM CASTING
characteristics like flexibility, transparency, high temperature resistance,
fiber load, similar to the final product: ABS, PP, PC, etc
MCP04 Mould max 730x730x880mm
29. • Painting room with drying ovens
• UV Oven for high gloss finish
• Different types of surface finish: Paint: Gloss paint finish, satin, matt, textured,
• monolayer, double layer. Metallic: high vacuum metallised parts or metallic
paint Blasting
• Polish the parts or moulds.
Prototypes
FINISHING
30. METALLIZATION
• High vacuum chamber
• Sublimation of different aluminum alloys base
• Treatment with oxides and salts under vacuum
Prototypes
Vacuum chamber 800x800x1200
31. • Design and development of R&D+i projects, from the initial concept to the results
phase.
Technical assistance to those companies that request it on R&D+i issues.
• Search for and individualized study of national and international opportunities
(National R&D Programs, H2020, Bilateral programs, etc.).
• Expertise in the preparation and leadership of technical and economic R&D
proposals on all levels (international, national and regional).
• Search for partners and collaborators, the writing of proposals and assistance as
R&D+i project department
ANDALTEC European Projects Office (OPE)
The aim of the Andaltec_OPE is encourage the participation of the center in the
European program Horizon 2020, and increase the capacity of Andaltec to promote the
participation of companies in the research activities funded by the European
Commission.
• Search for partners and collaborators, the writing of proposals and assistance as
intermediaries with finance entities.
• Andaltec is an accredited member of the “PIDI” Network of CDTI
32. Training
Some Training Fields:
• Technical Plastics and Injection technology.
•CAD Design of part and moulds (CATIA V5) R19.
•Products and process simulations (ANSYS R13.0 ,
HYPERWORKS), AUTODESK MOLDFLOW).
• Optimization of production (VPS). Lean
Manufacturing. 5S.Manufacturing. 5S.
• IMDS.
•Quality: Production, management systems and
process audits.
• Implementation of quality tools: PDCA, AMFES,
5S, DOE's ...