About Us

2-3D Cad Services is a specialist in design engineering and drafting firm located in Pune ,India.

Established in 2016 with its dedicated team of experienced engineers, the company strives to add value for its customers by reducing design cost, shortening design and development lead times. Also company provide consulting services into engineering and industrial field.

Our Vision

To produce excellent services & Consulting in Engineering Design Solutions to customers around the globe.

Our Mission

Our mission is to provide our services in the field of Engineering Design and Consulting to achieve customer delight. We want to become trusted partner of our customers adding value to their business.

Our Values

Quality

We are passionate about excellence and doing our work right the first time. Our reputation depends on our delivered value in the eyes of every customer and community.

Technology

Technology has made it possible to communicate more easily.

Customer Satisfaction

We build positive, long-term relationships with our customers, joint-venture partners, subcontractors, suppliers, and colleagues that are built on trust, respect, and collaboration.

Cost Control

The paramount advantages that our customers derive when working with 23dcad services are fairly affordable prices in terms of services and outstanding quality.

Innovation

We develop and apply world-class technology. We listen, learn, and seek out the best ideas. We attack complacency and continually improve.

Trustworthy Work Environment

Honesty is the best policy…always. Establishing good working relationships will increase the ease of communication between you and your coworkers.

Our Services

Reverse Engineering

Rapid Prototyping & Testing

FEA & CFD Services

Softwares We Have Expertise

For Drafting and 2D Drawing

AutoCAD

100%

For 3D Modeling and Drawing

Creo

100%

Catia

80%

Solidworks

70%

Unigraphics

65%

For FEA

Ansys

95%

Hypermesh

75%

Offer Services To Industries

Automobile

The automotive industry is a wide range of companies and organizations involved in the design, development, manufacturing, marketing, and selling of motor vehicles, some of them are called automakers. It is one of the world's most important economic sectors by revenue.

Off Highway & Agri Equipment

The agricultural machinery industry produces agricultural machinery, machinery used in the operation of agricultural areas and farms. Main types are: Tractors and power tillers, ... Machinery for harvesting, haymaking, and post-harvest, such as produce sorters, and machinery for loading.

Heavy Engineering

Transportation and construction along with their upstream manufacturingsupply businesses have been the bulk of heavy industry throughout the industrial age, along with some capital-intensive manufacturing. ... Modern shipbuilding (since steel replaced wood) is considered heavy industry

Industrial Design, Equipment and Machinery

These processes are best defined by the industrial designers and/or other team members. Industrial designers often utilize 3D software, computer-aided industrial design and CAD programs to move from concept to production. ... Industrial design may also focus on technical concepts, products, and processes.

Pharmaceutical Equipment and Healthcare

The healthcare industry is one of the world's largest and fastest-growing industries. Consuming over 10 percent of gross domestic product (GDP) of most developed nations, health care can form an enormous part of a country's economy.

Engines

An engine or motor is a machine designed to convert one form of energy into mechanical energy.Heat engines burn a fuel to create heat, which is then used to do work. Electric motors convert electrical energy into mechanical motion; pneumatic motors use compressed air and clockwork motors in wind-up toys use elastic energy. In biological systems, molecular motors, like myosins in muscles, use chemical energy to create forces and eventually motion Most mechanical devices invented during the industrial revolution were described as engines—the steam engine being a notable example. ... Examples of engines which exert a torque include the familiar automobile gasoline and diesel engines, as well as turboshafts.

Manufacturing & Services

The manufacturing sector is part of the goods-producing industries supersector group. ... Establishments in the Manufacturing sector are often described as plants, factories, or mills and characteristically use power-driven machines and materials-handling equipment.

An industry made up of companies that primarily earn revenue through providing intangible products andservices. Service industry companies are involved in retail, transport, distribution, food services, as well as other service-dominated businesses. Also called service sector, tertiarysector of industry.

Construction

Also included in this industry are establishments primarily engaged in manufacturing forestry equipment and certain specialized equipment, not elsewhere classified, similar to that used by the construction industries, such as elevating platforms, ship cranes and capstans, aerial work platforms, and automobile wrecker ...

Transportation & Logistics

This sector comprises establishments primarily engaged in transporting and warehousing goods as well as providing logistics services. It includes the four transportationmodes (trucking, rail, air and marine) as well as Postal Services, Couriers and Messengers, and Warehousing and Storage.

Energy & Utilities

The energy sector is a category of stocks that relate to producing or supplying energy. This sector includes companies involved in the exploration and development of oil or gas reserves, oil and gas drilling, or integrated power firms.

The utilities sector is a category of stocks for utilities such as gas and power. The sector contains companies such as electric, gas and water firms, and integrated providers.

Other Applications

Other than all above sectors comes under customised application as per requirement or industry need.

How we Work?

Define the Problem

Engineers will define the problem they are trying to solve. This is the single most important step in the design process. Without fully understanding the problem how can an engineer solve it successfully? This step is often done incorrectly or incompletely and results in a failure of the design. It is important to define the true problem one is solving, not just the symptoms of the problem or the perceived problem.

Do Background Research

Engineers will do background research on the problem their solving. They will investigate the ways others have tackled similar problems. Engineers will also gather details on the environment they’re dealing with, the situations their solution will be used in, and the ways it will be used.

Determine Solution Specifications

Engineers will specify WHAT the solution will accomplish, without describing HOW it will do it.

They do this through the use of specifications.

What are specifications? A specification is defined as an explicit set of requirements to be satisfied by a material, product, or service. In this case, specifications are requirements for the solution of the problem defined in Step 1 of the design process.

Specifications typically come from two places:
1. Design Constraints
2. Functional Requirements

Generate Concept Solutions

Ideate means to formulate, imagine, or conceive of an idea.

Engineer knows WHAT the solution will do, he or she must determine HOW it will do it.

Everyone does the same thing when faced with a problem or a decision to make: they think of alternative courses of action, even if they do this subconsciously. Formally documenting this intuitive action may help when solving complex engineering problems.

This is a step that requires some creativity. Some of the questions most commonly asked of engineers are, “How did you come up with that?” and “Where do you get your ideas?” Ideas come from everywhere! Inspiration can come from anywhere!

Learn How Your Concepts Work

In this stage of the process engineers takes some of their concepts from the previous step and make mock-up versions of them. The goal of this stage is to learn how each concept solution will function in “real life” and how it interacts with the real environment. This is also where a designer will start to determine which design concept will work the best. These prototypes are designed to be crude, but functional enough to be educational to the designer. The keyword here is “LEARN.”

Determine a Final Concept

In this process the designer or design group has several different potential solutions for the problem. This step is where the designers will use the lessons learned from their prototyping to determine which concept is best and go forward with it. This is not always an easy decision. Sometimes the “right” solution just reveals itself. Other times it is difficult to even define “best.” Teams can compare how each concept fulfils the specifications from step three in the process and see if one is significantly better than the others. Designers should look for the simple and elegant solution.

Do Detailed Design

In this process the designer or design group has several different potential solutions for the problem. This step is where the designers will use the lessons learned from their prototyping to determine which concept is best and go forward with it. This is not always an easy decision. Sometimes the “right” solution just reveals itself. Other times it is difficult to even define “best.” Teams can compare how each concept fulfils the specifications from step three in the process and see if one is significantly better than the others. Designers should look for the simple and elegant solution.

Determine a Final Concept

This is the stage of the design process where engineers take their chosen concept and make it into something more “real.” This stage is all about the details. At the end of this stage design teams should have everything necessary so that the full design can be constructed or implemented. Some of the pieces that may be generated during this step are CAD Models, Assembly Drawings, Manufacturing Plans, Bill of Materials, Maintenance Guides, User Manuals, Design Presentations, Proposals and more.

Get Feedback & Approval

The detailed design must often go through some sort of design review or approval process before it can be implemented. A design review can come in many forms. Some reviews occur as a simple conversation between two of the designers. Some reviews are done as a meeting of the Design Group where they recap and check the work that has been completed and try to find any errors. Many reviews involve presenting the detailed design to a customer, manager, or some other decision-maker for final approval.

Implement the Detailed Solution

Once the design has been completed and approved, it needs to be implemented. Depending on the nature of the problem being solved, the solutions to the problem could vary wildly. Depending on the type of solution, the implementation could also vary. The implementation could consist of using a new process that was designed, or it could consist of following a manufacturing plan and producing some physical object.

Does the Solution Work?

Engineers will test their implemented solution to see how well it works. The implementation must be reviewed to see what worked, what didn’t, and what should be improved. The testing procedures and results should be well documented. The main thing that should be determined during this stage in the process is whether or not the final implementation performs as expected and fulfils the specifications.

ITERATE

There were several mentions during the design process of repeating certain steps multiple times until an acceptable result is achieved. This act of repetition is known as “iteration.” This iteration results in a better end result and is one of the most important parts of design; this is why it is said that design is an iterative process!

Testimonials

“We are really impressed with their professionalism and the way they meticulously implemented the new system, such that there were no hiccups in the entire migration process”

-Nilesh Jagtap

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt

-John Doe/

Our Client

Contact Us:

Our integrated team of qualified engineers with broad experience and good exposure to various projects help in delivering creative and quality engineering services.

Mobile : Pramod : +91 9011336806, Vaibhav : +91 8180863725, Geet : +91 7722015985

Email : contact@23dcadservices.com , geet@23dcadservices.com

Office Address : Gods County, Alandi-Charoli Road, Alandi, Pune-412105