CT2MC-page-BD.PDF

CT2MC SAS

17 rue Lac Saint André

Savoie Technolac – BP367

73370 LE BOURGET DU LAC

France

www.ct2mc.com

P: +33 4 79 33 65 95

[email protected]

ENGINEERING AND INNOVATION CONSULTING

PRODUCT DEVELOPMENT

CT2MC performs missions in Aerospace & Defense, Automotive, Consumer Products, Energy and Medical

industries.

CT2MC may accompany you on your project such as :

OUR PARTNERS:

AEROSPACE & DEFENSE

Engine nacelles, ailerons, radomes, aircraft panels,

floors, doors, heat shields, wing structures, rudders,

helicopter fuselages, rotor blades, ballistic protection.

AUTOMOTIVE

Body panels, chassis, bumpers, brake rotors, cockpits,

trimmings, instrument panels.

CONSUMER PRODUCTS

Sporting goods, packaging, heat sinks for electronic

systems, bicycle frames, helmets, furniture, building

materials.

ENERGY

Wind turbine blades, solar panels, offshore structures

including thick-walled tubular, sub-sea pipes, and tanks.

MEDICAL

Prosthetics, orthotics, load-bearing implants, surgical

equipment

N.B.: Parts listed above are non exhaustive.C

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Plaquette_A4_ct2mc.pdf 1 28/02/2014 17:36:21

CT2MC SAS




France

www.ct2mc.com

P: +33 4 79 33 65 95

[email protected]


PRODUCT DEVELOPMENT


industries.


OUR PARTNERS:

AEROSPACE & DEFENSE




AUTOMOTIVE



CONSUMER PRODUCTS



materials.

ENERGY



MEDICAL


equipment


M

J

CM

MJ

CJ

CMJ

N


RIGIDITY LIGHTWEIGHT COST REDUCTION PROTOTYPEEnvironment resistant / Resistant / Integrated functions cost-limited solutions / Flexibility

CT2MC OFFERS COMPETITIVE ADVANTAGES TO YOUR PRODUCT / PROJECT:

PROJECT MANAGEMENTCT2MC runs a unique project management methodology to optimize work efficiency.

It ensure a smooth running process fitting your development requirements.

Our product development team assembles mechanical and material knowledge with

electronic and embedded systems competences.

It guarantees your product will be lightweight, function integrated, efficient and ready

to use as a serial product.

Our first development is the patented SPYBOAT technology, a nautical drone based on

a lightweight composite materials structure

CT2MC develops your products by integrating brand new top-notch electronic functions

integration if needed to break conventional integration.

Composit’tronic is a protected brand since 2014

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

PROJECT DEVELOPMENT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

- - - - - - - - - - - - - -

- - - - - - - - - - - -

- - - - - - - - - - - - - -

- - - - - - - - - - - - - -

COMPOSIT’TRONIC - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

An engineering unit specialised in design, dimensioning

and process development, to provide our customers with

optimized products.

A product development unit specialised in engineering

and electronic functions integration.

CT2MC is an engineering and innovative company based in the French Alps.

Our company comprises two business units:

Our engineers offer you the CT2MC engineering and

innovation knowledge to achieve your challenges.

We use a powerful simulation and design validation

software: Solidworks Premium.

Thanks to our process development skills we bring our

expertise to your project in the manufacturing process

such as high temperature injection process, hybrid

process…

We have an expert knowledge of thermoset processes

(RTM, injection, infusion, hands lay-up, prepreg) and

also thermoplastic processes (injection in mold,

pultrusion).

Our complete comprehension of your needs help us

developing the most cost effective and cost efficient

manufacturing process.

MANUFACTURING

Identifying and dealing with manufacturing problems

at the design stage, saves considerable cost

downstream.

Many composite components require draping of

multiple plies over curved surfaces. This could lead to

material shearing, excessive stretching and a marked

change of fiber orientation. Excessive shearing can lead

to manufacturing difficulties, and if the fibers deviate

considerably from the desired orientation, it could lead

to a compromised structure.

Our composite knowledge help us to predict the fiber

orientations and shear of unidirectional and woven

plies as they drape around curved and complex

surfaces.

STRESS ANALYSISOur engineers study the behavior of composite

structures across the loading spectrum. We can perform

both linear and nonlinear analysis to predict the

response of these structures accurately.

> Linear and Nonlinear Static

> Linear and Nonlinear Transient

> Normal Modes

> Buckling

> Direct or Modal Frequency Response

> Direct or Modal Complex Eigenvalue

> Direct or Modal Transient Response

> Heat Transfer

> Thermal-Structural Analysis

OPTIMISATION :Our engineers optimize designs and save material costs.

Composite materials can be engineered to suite specific

applications. However, trial and error designs with

physical prototyping can be very expensive. We

optimize shape, size and topology to save material

costs, by minimizing weight and solving individual ply

thickness and orientations.

LAMINATE MODELER

CAPABILITIES

> Calculate failure indices

> Optimize materials, plies and layups

> Size zones efficiently

> Simulate manufacturability with robust draping algorithm

> Calculate and store fiber angle and shear data for

every ply on every finite element

> Interface with multiple analysis tools

> Generate manufacturing data

BENEFITS

> Develop optimized laminated structures

> Enable collaboration between designer, analyst and

manufacturer

> Automate the design process

> Identify problems before manufacture

> Share composites design data with CAD products

PROCESS DEVELOPMENT

ENGINEERINGDESIGN

FAILURE ANALYSISDue to the heterogeneous and layered nature of

composites, multiple failure mechanisms affect the

performance of composites during service.

The damage buildup can be gradual leading to

performance degradation and to ultimate failure.

PROGRESSIVE FAILURE ANALYSIS :Predict progression of damage in the materials using

any of the multiple failure criteria including Maximum

Stress, Maximum Strain, Hill, Hoffman, Tsai-Wu,

Hashin, Puck, Hashin-Tape or Hashin-Fabric.

DELAMINATION :

Analyze weakening and failure of bond

between the plies using Cohesive Zone

Modeling technique.

DIMENSIONING

C

M

J

CM

MJ

CJ

CMJ

N


RIGIDITY LIGHTWEIGHT COST REDUCTION PROTOTYPEEnvironment resistant / Resistant / Integrated functions cost-limited solutions / Flexibility

CT2MC OFFERS COMPETITIVE ADVANTAGES TO YOUR PRODUCT / PROJECT:

PROJECT MANAGEMENTCT2MC runs a unique project management methodology to optimize work efficiency.

It ensure a smooth running process fitting your development requirements.

Our product development team assembles mechanical and material knowledge with

electronic and embedded systems competences.

It guarantees your product will be lightweight, function integrated, efficient and ready

to use as a serial product.

Our first development is the patented SPYBOAT technology, a nautical drone based on

a lightweight composite materials structure

CT2MC develops your products by integrating brand new top-notch electronic functions

integration if needed to break conventional integration.

Composit’tronic is a protected brand since 2014

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

PROJECT DEVELOPMENT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

- - - - - - - - - - - - - -

- - - - - - - - - - - -

- - - - - - - - - - - - - -

- - - - - - - - - - - - - -

COMPOSIT’TRONIC - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

An engineering unit specialised in design, dimensioning

and process development, to provide our customers with

optimized products.

A product development unit specialised in engineering

and electronic functions integration.

CT2MC is an engineering and innovative company based in the French Alps.

Our company comprises two business units:

Our engineers offer you the CT2MC engineering and

innovation knowledge to achieve your challenges.

We use a powerful simulation and design validation

software: Solidworks Premium.

Thanks to our process development skills we bring our

expertise to your project in the manufacturing process

such as high temperature injection process, hybrid

process…

We have an expert knowledge of thermoset processes

(RTM, injection, infusion, hands lay-up, prepreg) and

also thermoplastic processes (injection in mold,

pultrusion).

Our complete comprehension of your needs help us

developing the most cost effective and cost efficient

manufacturing process.

MANUFACTURING

Identifying and dealing with manufacturing problems

at the design stage, saves considerable cost

downstream.

Many composite components require draping of

multiple plies over curved surfaces. This could lead to

material shearing, excessive stretching and a marked

change of fiber orientation. Excessive shearing can lead

to manufacturing difficulties, and if the fibers deviate

considerably from the desired orientation, it could lead

to a compromised structure.

Our composite knowledge help us to predict the fiber

orientations and shear of unidirectional and woven

plies as they drape around curved and complex

surfaces.

STRESS ANALYSISOur engineers study the behavior of composite

structures across the loading spectrum. We can perform

both linear and nonlinear analysis to predict the

response of these structures accurately.

> Linear and Nonlinear Static

> Linear and Nonlinear Transient

> Normal Modes

> Buckling

> Direct or Modal Frequency Response

> Direct or Modal Complex Eigenvalue

> Direct or Modal Transient Response

> Heat Transfer

> Thermal-Structural Analysis

OPTIMISATION :Our engineers optimize designs and save material costs.

Composite materials can be engineered to suite specific

applications. However, trial and error designs with

physical prototyping can be very expensive. We

optimize shape, size and topology to save material

costs, by minimizing weight and solving individual ply

thickness and orientations.

LAMINATE MODELER

CAPABILITIES

> Calculate failure indices

> Optimize materials, plies and layups

> Size zones efficiently

> Simulate manufacturability with robust draping algorithm

> Calculate and store fiber angle and shear data for

every ply on every finite element

> Interface with multiple analysis tools

> Generate manufacturing data

BENEFITS

> Develop optimized laminated structures

> Enable collaboration between designer, analyst and

manufacturer

> Automate the design process

> Identify problems before manufacture

> Share composites design data with CAD products

PROCESS DEVELOPMENT

ENGINEERINGDESIGN

FAILURE ANALYSISDue to the heterogeneous and layered nature of

composites, multiple failure mechanisms affect the

performance of composites during service.

The damage buildup can be gradual leading to

performance degradation and to ultimate failure.

PROGRESSIVE FAILURE ANALYSIS :Predict progression of damage in the materials using

any of the multiple failure criteria including Maximum

Stress, Maximum Strain, Hill, Hoffman, Tsai-Wu,

Hashin, Puck, Hashin-Tape or Hashin-Fabric.

DELAMINATION :

Analyze weakening and failure of bond

between the plies using Cohesive Zone

Modeling technique.

DIMENSIONING

C

M

J

CM

MJ

CJ

CMJ

N


CT2MC SAS




France

www.ct2mc.com

P: +33 4 79 33 65 95

[email protected]


PRODUCT DEVELOPMENT


industries.


OUR PARTNERS:

AEROSPACE & DEFENSE




AUTOMOTIVE



CONSUMER PRODUCTS



materials.

ENERGY



MEDICAL


equipment


M

J

CM

MJ

CJ

CMJ

N


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