Amazing Ways That Help You Save Time, Costs and Efforts With 3D CAD Modeling

Design holds an important place in the engineering, there are no two opinions about this fact. And if the design is accurate, you are half-way there. Wrong designs can be really troublesome and cost you a lot of time. If there is any flaw with the design, the flaw would be reflected later on during the execution. So, this means you will have to work on the design again. Looks like you wasted a lot of time, didn’t you?

The accuracy with the designs is crucial in any domain, and the same holds true for mechanical engineering as well. And quality designs can save time, costs and efforts. And for the same good reasons, firms use 3D CAD Modeling to avail the benefits with quality designs. And you cannot imagine how much time these designers and engineers save by redesigning. Redesigning has been just made the life a lot easier.

3D CAD Modeling offers a great deal of templates with mechanical components that are integrated. Thus, a designer can pick the template that is already existing and save a lot of time. All the changes relating to components can be incorporated easily and this can be done at any stage, therefore, you have increased levels of productivity. Everyone wants productivity. It would be a lie to say firms don’t need productivity.

One of the headaches for these firms can be the process of documentation. This process can get really lengthy, and 3D CAD Modeling does come with in-built entities that just eases the process of documentation by various lengths. 3D CAD Modeling can help in coming up with engaging designs that clients are really interested in. So, demonstrating the product has been made quite smooth, and clients just love experiencing the designs where the functionality has been demonstrated in a way that they understand. The clients are able to visualize the complete outcome with better designs.

3D CAD

What if you wanted to refer or modify a design that you had previously created? With 3D CAD Modeling, saving of designs on the machine has become a lot easier. All in all, a firm can make some quick decisions and save a lot of time and efforts with 3D CAD Modeling. And when you saved time and efforts, you have definitely saved the bucks, a lot of bucks.

If you are looking for a partner to take care of your 3D CAD needs, then Indovance is the right partner. Indovance has been a tried and tested outsourcing partner for many of the firms. Indovance delivers the projects in a low turn-around time. So, if you are out there worrying about a 3D drafting and drawing services, then Indovance is the right firm to partner with if growth is what you are looking at.

Ask for a trial period, Or contact our Sales Team at: +1 919-239-4044.

For more information, reach at us: info@indovance.com or log on to: www.indovance.com

Structural Analysis Tools: Raise The Quality Of Your Products…

Introduction:

It’s been nearly 50 years since the time the first structural analysis program was released. Primarily, design engineers use structural analysis for simulations, to determine the strength and stiffness of a product by reporting component stress and deformations. The type of structural analysis you perform depends on the product being tested, the nature of the loads, and the expected failure mode.

Application areas:

From single component products to to large complex systems, from linear static to highly non-linear dynamic problems, capabilities in the structural analysis tools are built to grow with your business, optimize your cost of ownership, and support you in achieving your business goals. From static and dynamic analysis, thermal and non-liner analysis, to multibody dynamics and composite material analysis, the application areas are many. With such application portfolio, many industries use structural analysis.

Fabrication

The advantage:

Statistical analysis tools provide a family of high performance solutions that meet the needs of experts and designers, new engineers, and everyone in between. These solutions help industries meet their business challenges, achieve business goals. Using the software engineers gain deeper insight in their products through virtual testing. These structural analysis programs are able to evaluate many different types of designs, giving high confidence that the final design will successfully meet prescribed requirements before the physical product is built.

Piping Stress Analysis: The Benefits

Piping Stress Analysis
A brief look:
Piping system design is a major part of design engineering effort in any facility; particularly the stress analysis. Piping stress analysis is a critical aspect of piping design, and allows you to address issues related to piping safety, safety of components and connected equipment, and piping deflection. The objective of such analysis is to prevent premature failure of piping and piping components, and to ensure that the stress is kept within allowable limits.

Benefits and application areas:

In the present day industry, use of piping stress analysis offers many benefits as it covers a variety of application areas. Here’s a quick look at some of the benefits through image: –

Benefits of Piping Stress Analysis

Software solutions available for piping stress analysis allow you to define and evaluate system models quickly. With the help of colour-coded system, the software helps you to identify areas of concern quickly and clearly. The graphical representation allows you to view displacement for any stress load.

Functions and outsourcing advantages:

Besides evaluating the piping systems load capabilities, stress analysis offers other benefits like analyzing response to dead weight thermal and pressure loads, measure effects of support settlement, wave and seismic loads. Using the analysis, you can also select proper springs for necessary support, and evaluate support lift off, frictions, and gaps. If you choose the right outsourcing partner, the engagement will offer you many advantages. The service portfolio may include, 2D / 3D piping layouts, plot plan and piping design development, conceptual pipe routing, and paper or blue prints. All these services are offered to you at low costs with high quality delivery.

Mechanical engineering: Trends in the coming times…

A brief look:

As in the case of engineers working in other industry verticals, mechanical engineers in the coming years will be instrumental in developing technologies that foster healthier, safer, and sustainable work environment. To do this, they will have to collaborate with their global outsourcing partners to apply innovation and best practices to improve the overall quality of their lives, and of those around them. Having said this, although they are upbeat about the future for their profession, they are not quite certain if their present skills will be good enough to see them through these changing times.

Preparing for the change:

Having the desired domain knowledge and experience is not enough anymore to survive in the ever changing global economy, and mechanical engineers are no exception. For them to combat key global problems, they have to develop more interdisciplinary skills; learn to work seamlessly with team members from outside the engineering profession.  Success will require engineers to continually update and improve their interdisciplinary skills to remain competitive in the global market. However, before they decide to acquire such skills, mechanical engineers should first check their adaptability to the following.

Future of Mechanical Eng

The challenge:

Having realized that their core competencies are not sufficient for them to be successful, mechanical engineers must be optimistic and have self-belief. They have to be open to explore newer engineering disciplines where their interdisciplinary training can come into play. To face the challenge, they must be ready to look at career options in fields like alternative energy, bio and nanotechnology, and bio-medical engineering. They also have to seriously think about acquiring skills like multilingual capabilities, animation, and team management to name a few.

“The future of mechanical engineering holds a lot of promise for outsourcing.  With their newly acquired skills they can work as independent operators, working with colleagues across the globe.”

Plant Modelling And Equipment Design: Enhancing Productivity – Enhancing Revenues

PLant ModellingIntroduction:

In modern day industry be it civil, mechanical, manufacturing, or any other industry for that matter, use of plant modelling and equipment design are very prominent. In mechanical engineering, with the use of collaborative technologies and modern communication system, you can help your customers set up plants. You may also support them in engineering services that necessitate synchronization between different engineering functions and project management.

Since the basic plant or equipment characteristic changes over time, it is important that you validate and reconstruct your current design. Employing newer and efficient plant and equipment modelling methods; therefore, are imperative if you are focusing on quality.

Equipment DesignThe challenge:

Companies that are engaged in plant building and operations, engineering, and construction to name a few, are under continued pressure to meet global demands, especially in the fiercely competitive commercial environment. Whether your industry is small or big, faster and cheaper to market is the key to your success. A completely new approach; therefore, is needed that will reassess plant modelling and equipment design in the light of new productivity-enhancing technologies that go beyond today’s plant modelling and equipment design solutions.

The solution:

Equipment design is a major component in a mechanical system such as a refinery, refrigeration plants, HVAC system, power plants and so on, the primary focus of equipment design is on designing the piping systems, turbo machinery, heat exchangers, and equipment such as boilers, pressure vessels and storage tanks.  In recent times, the 3D Modelling & Visualization solution that have come into play, leverage your domain and global expertise, and offer innovative applications that meet your needs. These solutions help you remove existing plant modelling and equipment design limitations, and in their place introduce new, multi-disciplinary ways of working – in an optimized, integrated design and visualization environment.

A good model or an equipment design will help engineers to organize and expand equipment data allowing to build the design as per appropriate codes. Outsourcing part of these services offer many advantages such as less infrastructure cost, competitive edge, and leverage expert help, reliability and security. That’s why more and more organizations are looking to outsource plant modelling and equipment design services.

Shop drawings: Outsourcing can gain your business advantage

Shop DrawingsIntroduction:

Shop drawings are a key part of every building construction project. They provide extremely important measures and specifications of pre-fabricated components to contractors, real estate developers, helping them get maximum benefits. If you select the right partnering company, they will provide CAD drafting and designing, prepares precise and error free shop drawings. They will work in conjunction with your customers, as if they are their own, and helps them meet their expectations.

Advantage outsourcing:

The advantages of outsourcing shop drawing services are many.  Some of them are listed below:

Time Bound Delivery: With the right partner, you can deliver shop drawing services within short period of time, making the project work move so much faster.

Use of Technology: With most of the engineers and architects, working with your partner, have expertise in using cutting-edge technology, error-free drawings are produced quicker and with absolute precision.

Standard Output: Your partner can provide unmatched quality and may exceed your drawing standards. In fact, to support your business needs they can go beyond the professional standard of care and quality.

Experience and Expertise: With expert talent working with your partners, talent having experience of working with key players of the industry, you can streamline your entire production and review process.

 

As a pilot, you can test your prospective partner; their standards, experience, and talent, you can send a set of your architectural drawings. If the partner is good, be assured of receiving a set of professionally drafted shop drawings.

Mechanical Engineering – Outsourcing Advantages

Introduction: Tapping the external expertise

As is the case with other business verticals, mechanical engineering is not far behind in terms of outsourcing. Considering the pressing business needs, the need to tap external expertise in the core business practices is mechanical engineering is eminent. Many manufacturing companies have realized significant cost saving; the fact that encourages more and more companies to sign up outsourcing engagements. It’s not only the cost savings; companies have also realized that they are able to enhance their competitive advantages as they are able to focus on their core business areas. The present day situation is, there are unlimited outsourcing opportunities in mechanical engineering these days.

Overtime, the outsourcing models in mechanical engineering have matured, they are like well-oiled machinery, and hence the distinction between core and non-core business is fading away quickly. Having realized the benefits, many companies are considering their traditional core areas for outsourcing. Companies that had limited market place have global footprints these days…thanks to effective outsourcing models.

The pain points: how outsourcing could help

Before you even begin thinking of outsourcing your engineering processes, product development etc. you need to spend considerable time with your prospective customers, to understand not only their manufacturing needs, but their obstacles as well.

Following are some of the key pain points, and how outsourcing can help overcome these difficulties:

  1. Hiring the right talent at the right price is perhaps the largest costs related to any business. If your production needs increase, a right outsourcing partner can respond much faster than you could as the OEM; outsourcing takes the responsibility and challenge of staffing out of your hand and a manufacturer.
  2. The right outsourcing partner will provide you the flexibility to move some or all production offsite in turn allowing you to focus on research, design and innovation. If you want to grow in a shorter span, you need to focus on what you do best and move some tasks offsite. Your engineers can then spend more time in product development and quality checks that is so critical for the success of your business.
  3. In an engineering setup, many things can impact the ability to meet time-to-market demands. For example, some engineers may not understand the full impact of their design decisions on cost, turnaround and the supply chain. A good outsourcing partner will provide solutions to improve processes and get you to the market faster. Your partner will have a team that does nothing but keep abreast of material and process innovations, and have established relationships with suppliers.

Projection Methods Used In Mechanical Drawing

Projection methods are used to represent a 3D object in simple terms so that it can be understood more easily. It’s used in mechanical drawing and design so that the structure created by a designer can be communicated to manufacturers and builders. A pictorial view of a design can’t always show the details in complicated shapes that contain information related to how it will be manufactured.

There are four main types of projection methods used in mechanical drawing in order to convey information such as geometry, dimensions, tolerances, material and finish. Let’s take a look at how they are drawn. If you need help with design, why not outsource drafting projects to Indovance? Let our resources save you time and money!

1. Orthographic Projection
Orthographic projection shows a 3D object in two dimensions so that you can see three views: the front view, side view and top view. It is usually positioned relative to the rules of first-angle or third-angle projection. The difference between the two is the view. However, it is not a realistic view of the object, because it requires multiple views to get all of the information in order to “see” the design. But more accurate measurements can be obtained because all views have the same scale.

An orthographic projection can also include a section view, which is when a portion of the object is cross sectioned along the specified plane, and the information about that section is displayed. It’s used to show internal specifications.

2. Axonometric Projection
Axonometric is another type of orthographic projection. It is considered complex because only one image is drawn on the paper’s plane. There are three types of classifications. The most common is isometric, where the angles between the three axes are equal. The second is diametric. Only two of the angles between the axes are equal in this type. Trimetric is the third type. It can have three axes with different angles between them. It is the most common type. Axonometric projection is good for rectangular or square objects rather than objects with curved lines.

3. Oblique Projection
Oblique is a simple type of projection that only requires one image. It can be drawn with traditional tools because it’s not complex. It depicts a 2D image of a 3D object. The object is drawn from the front view, and then the other areas are added in relation to it. It can be divided into two types based on the scaling of the object: cavalier projection, which uses a 1:1 scale, and cabinet projection, which uses a 2:1 scale. It uses parallel lines to produce the source of the object in the image.

4. Perspective Projection
Of the four methods, perspective projection is not based on parallel lines. It is an approximate representation of the object as it would be seen by the eye in respect to depth perception. The projection lines emerge from a single point, showing the closer part larger than the more distant part. The object can feel more realistic with this projection, but it does require a good imagination.

Outsource Drafting Projects to Indovance for Time and Money Savings

Get the most for your money by working with one of the top outsource drafting firms in the world. If you’re interested in lowering costs within your business, give Indovance a call. We can help you decrease your project time, giving you an advantage over your competitors. We offer AutoCAD, BIM modeling services, engineering, architecture services and more. Call us today to learn more about all of the outsourcing services we offer so that your business can grow to new levels.

Becoming a Mechanical Engineer

outsourcing cadMechanical engineering is a growing field that offers numerous benefits and advantage to those that choose to obtain a degree in the industry. In our previous post, we talked in detail about mechanical engineering and the various fields and industries they’re needed in. Today, we are going to continue our discussion with information regarding becoming a mechanical engineer and the steps that should be taken before, during and after college.

Steps To Take Before College

  • Study mathematics of all kinds, science, and computers in high school.
  • Take part in math contests and science fairs.
  • Develop hobbies related to mechanical engineering.
  • Learn to use tools. Take Auto shop, if possible.
  • Learn to disassemble machines, fix them, and reassemble them.
  • Explore the field of electronics.
  • Research different colleges and universities that offer an engineering degree. There are hundreds of schools that offer this degree so it’s important to do your research and make the best decision for yourself.

Steps To Take During and After College

  • Take drafting classes – Even if you’re engineering school doesn’t offer drafting classes, it’s very beneficial to take a few at a local community college. Also consider learning CAD software if possible. CAD is a great design software that many companies use or outsource to companies that use the system.
  • Develop impeccable written communication skills.
  • Achieve a Bachelor’s Degree in Mechanical Engineering. This could take four to five years at a university that offers this degree.
  • Earn an Engineering License.

Mechanical Engineering is a great field to enter that offers many advantages and benefits, including an opportunity to work with CAD software. As an outsourcing company that uses CAD, we know how important it is to continue our education, allowing those who are interested in becoming a skilled expert in the engineering field to learn and grow in knowledge.

Outsourcing CAD Services With Indovance

Indovance is a company that offers CAD outsourcing services to firms that need expertise in skilled fields without the extra costs and manpower it often takes. If you’re interested in our outsourcing CAD services company, feel free to contact us today!

Mechanical Engineering Outsourcing Services

engineering outsourcing servicesAre you considering a career move that involves mechanical engineering? If so, there are many different opportunities involved in this field that can offer various benefits and advantages for those who take the necessary steps to becoming a mechanical engineer.

Where are Mechanical Engineers Needed?

Mechanical engineers play a central part in many industries and fields, including:

  • Scientific research
  • Construction
  • Aerospace
  • Acoustics
  • Combustion
  • Automotive engineering
  • Design testing
  • Packaging
  • Medical industry

As the broadest and most diverse in the field of engineering, mechanical engineers work with detailed projects and have a skill set that’s in high demand for the following:

  • Automotive Engineering – Working primarily on the car chassis, engine and transmission sensors
  • Aerospace – Designing control systems for airplanes, spacecraft and also working on airplane components and aircraft engines, as well.
  • Biotechnology – Designing implants, prosthetics, fluidic systems for pharmaceuticals
  • Computers and Electronics Devices – Designing printers, cooling systems, semiconductor tools, disk drives and more.
  • Microelectromechanical Systems (MEMS) –Working with sensors, micropower generation and actuators
  • Energy Conversion – Working with gas and wind turbines, solar energy and fuel cells
  • Environmental Control – Working with air-conditioning, refrigeration and HVAC systems
  • Automation – Designing and working with robots, data and image acquisition, recognition and control
  • Manufacturing – Microfabrication, machining, machine tools, prototyping

Mechanical Engineering Salary

According to the BLS (U.S. Bureau of Labor Statistics), mechanical engineers earned a median salary of $82,100 in 2013. The best-paid earned about $123,340, while the lowest-paid earned less than $52,550. Industries that pay well include oil and gas extraction as well as information services. The top-paying metropolitan areas for the occupation include Anchorage, Alaska; Taunton, Massachusetts; and San Jose, California.

A Growing Need 

Deciding to become a mechanical engineer can be very beneficial for those who want to enter a career field that will continue to grow and and be successful. As of now, mechanical engineering employment is expected to grow 4.5 percent by 2022. That’s about 11,600 new positions that will be needed in the field in the future.

Making the decision to become a mechanical engineer takes years of preparation, oftentimes beginning in middle and high school. In our next blog post, you’ll find steps that are necessary to take before, during and after college for those looking to become a mechanical engineer so be sure to visit back with us, soon!

For those interested in learning more about outsourcing with Indovance, contact us to talk further with our experts. We offer outsourcing services for architectural, engineering and other drafting needs.