Engineering Graduate looking for a job Here are most promising CAD Courses.

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Choosing a career in any stream of education is a top-notch decision or can be categorized as a brainstorming session. In order to make a right decision for life, it is essential to study diverse industry aspects and related scope of development. Many students get confused about their career after completing their education and especially, after completion of engineering.

 

It is entirely the choice of an individual to select a field as per the interest and ability. Though jobs are available for engineers in various sectors but pursuing a CAD course opens the gateway for better job opportunities. Many engineering professionals and firms are using CAD software on a large scale, therefore, making it essential to learn them.

 

Have a look at the most promising CAD software modules and their scope outlined below!

Mechanical CAD Software Courses

CAD skills help engineers to find employment and increase productivity if they master in the software products. Some of them are:

  • AutoCAD
  • Creo
  • Inventor
  • Siemens NX
  • CATIA

Electrical CAD Software Courses

For an engineer, CAD software can save time and reduce errors while enhancing design communication. Sharpen your skills with the listed CAD software:

  • AutoCAD
  • ZW3D
  • CATIA
  • PTC Creo
  • Rhino

Architectural Design CAD Software Courses

CAD software will enable architects to draw an intelligent 3D model that helps to efficiently plan, design, construct and manage infrastructure. Listed below are a few CAD software tools for architects and engineers:

  • AutoCAD
  • 3Ds Max
  • Microsoft Project

Building Design CAD Software Courses

CAD tools are significant in making home design, interior making, and kitchen and bath design. With CAD, it becomes easy to identify design flaws and point out serious build problems.

  • AutoCAD
  • Civil 3D
  • 3Ds Max
  • ArchiCAD
  • Revit

Structural Design CAD Software Courses

CAD helps designers to easily outline designs, gather data, draw systematic sketches, helps in performing documentation and project report generation. Students can appear for these courses as listed below:

  • AutoCAD
  • ETABS
  • AutoCAD Structural Detailing
  • Pro
  • SAP2000 v18

Land Survey and Transportation Design CAD Software Courses

CAD helps surveyors to enhance the design process for visualization and provide stakeholders to undergo better understanding of a site. For land surveyors and road designers, following are suitable CAD courses:

  • MX Road
  • AutoCAD Civil 3D

What’s New in AUTOCAD CIVIL 3D 2018

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AutoCAD Civil 3D is a documentation and design solution that supports BIM workflows. It also helps engineers, drafters, and technicians to understand project performance better. Users can also streamline time-consuming tasks such as pressure pipes, parcel layout, gravity, and corridor design with some tools and customization design standards. Following are the latest features and benefits:

Pipe sizing and analysis

The changes are introduced in the area of resizing of pipes and resetting inverts. In addition, new feature includes computing of energy and hydraulic grade lines in accordance to HEC-22 2009 standards.

Dynamic offset profiles

Software now enables creation of dynamic offset profiles by using cross slope. It is also possible to create dynamic offset profiles by using the same command such as for offset alignments. Profile geometry offset using a default cross slope, can be modified by editing properties of profiles.

Plan and profile sheet generation

It is now possible to create plan and profile sheet by including more than one plan/profile views on one sheet. Take help of AutoCAD Civil 3D production tools for producing construction documents through drawings. Therefore, you can easily create profile/plan, plan(s), and sections sheets.

Relative Elevation Feature Lines

One can easily obtain feature lines elevations from surface and so, when the surface is updated, the features line is updated. Thus, the update behavior of a feature line varies depending on whether the feature line was set to be relative or just set to be created for absolute elevations.

Connected alignments

There is a new linked alignment and profile connecting two intersecting alignments and profiles. The connected alignment feature can be used to create new alignment and profiles that transition between their profiles. The feature is efficient to create an exit ramp, a merging or diverging road, a curb return, or perhaps for connect existing road to proposed road.

Corridor Overlap Resolutions

In consideration to corridor cleanup issues that are not cleaned up automatically, the new feature is introduced to resolve corridor bowties. Elaborately, at some of the locations on corridor models, the links can now cross each other that result into bowtie-like configurations.

Traverse Editor

Now, you can use the Traverses collection for management of existing traverses within the network. Creation of Traverses from data in a field book file or by using the Traverses Editor for manually entering survey data. For example, you can create data or hand notes from the site plan.

Label Property Set Data

Use Property Set tab within the standard label setup process for adding custom properties to label styles. So, you can now add custom data to AutoCAD Civil 3D 2018 object labels with the use of property sets.

Intangible Soft Skills: An Engineers Key to Stand Out and Succeed

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Today’s era is the era of engineers. The field of engineering is very vast and provides a lot of opportunities. So far there has been a simple career formula for peaceful life.

 

Peaceful life = Bachelor’s degree + Experience + Pension + Retirement

 

However, the formula is not applicable in the current competitive world. Apart from technical skills, the companies look forward to additional skills in every candidate. Soft skills are one among those important additional skills.

 

Is Soft Skill Really Important?

There is no doubt that soft skills really matter to an engineer. There have been several cases where extremely talented engineers have failed in teamwork, client communication or maintaining professionalism. Studies found that people with soft skills outperform those who only rely on technical skill. Therefore, employers value engineers who master both technical and dynamic skills.

 

Mastering Soft Skill

7The basic thing to understand is the way work is done in any engineering environment. The way work is done today has also become a critical factor. The engineering field includes highly mobile teams and handling multigenerational workforce and projects. On a daily basis, engineers encounter fresh graduates as well as highly experienced professionals. Employees need to bridge the gap between such differences and efficiently communicate with all the individuals encountered during their work. On a global basis, projects require a high level of collaboration. An engineer might have to work with other members working miles away. Several differences might stand as an obstacle in any global project such as

  • Language
  • Culture
  • Time zone
  • Working hours and many others.

An employee without the right soft skill will find it hard to adapt to such project which might affect both the individual and the employers.

In the world of project-centric work, only the employees with intangible skills can dodge various pitfalls throughout the lifetime of the project. The employers look for candidates who can

  • Successfully complete a job which will highly depend on the tangible skills of an individual
  • Skilfully manage any project is a skill that every employer looks in a candidate
  • Handle complex projects rather than just be a part of it are more preferred

Whether you are looking for an engineering role or trying to move up your career, marketing your soft skills as an asset will pitch your capability and help you to achieve your goals. It is a differentiator that will put you in the spotlight.

 

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From 3D to 4D Printing: Transforming the way Micro Scale Structures are printed

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Technology has grown up to a large extent in the recent past years. It showed some of the technical marvels that were never imagined before. One of them was the evolution of the 3D printing technology that made it possible to transform computer models into real world objects.

Ever since the dawn of 3D printing, it never left the sky. The technology first started printing with metal alloys and plastic materials. Growth never stopped and now a number of other materials have been used to produce 3D printed objects. Technology made it possible to use a different “inks” that made it possible even to print living cells and semiconductor batteries.

3D printing soon entered the micro scale device manufacturing. Experts, scientists and researchers from the top organizations such as University of Harvard, Cambridge, Princeton, UCLA, and Minnesota have been constantly working on this 3D printing technology and soon came up with designing micro scale devices and gadgets that were even smaller than the width of a human hair.

On the way forward, material science experts and Biologists worked together to take things on a complete new level.

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  1. They developed objects that hold properties of both- life science and electronics.
  2. Materials with multivariate characteristics of materials were developed that can be potentially used as a fluid in micro-scale printing.
  3. On the same way, scientists from the University of Princeton developed a fully functional bionic ear blending biology and electronics together.

The Next Step- 4D Printing

Professor Lewis, a researcher from the Harvard University has been working on this technology in her Lewis lab from a while. She has been showing a keen interest on developing 3D printed objects that had features as small as one micrometer. The Lewis lab again gained recognition when they developed objects that actively responded to external stimuli.

Inspired by many plants that responds by the external stimuli, this 4D technology was a big breakthrough.

 

  1. The 4D-printed hydrogel composite structure changed shapes when immersed in water.
  2. Objects now started moving in the fourth dimension when we were only brainstorming around the third one.
  3. Combining both biological as well as electronic properties, researchers soon developed micro scale structures.
  4. 4D printing soon made objects change into any arbitrary shape using any suitable material.

This 4D printing technology is said to be competent enough to print dynamic micro scale structures that can significantly contribute in both industrial as well as medical domains.

3 E-Learning Technologies that Can Jumpstart the Training Programmes

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In this technological era, before getting used to one technology, the next one emerges. However, there are some things that remain the same such as e-learning. Most of the learning technologies have not yet evolved for a long time and finding the hottest solution for the same has become a challenge for the entrepreneurs. So the important question is

“How do we increase the effectiveness of learning through the latest technologies?”

The answer to this question includes three solutions that are not interactive and at the same time popular. They are games, videos, and mobile.

 

  1. Games
  2. Videos
  3. Mobile

 

Gamification

An industrial study found that about 75% of the people working today are “casual gamers.” Some giants such as IBM, Xerox, and Deloitte have taken initiatives to incorporate interactive e-learning. However, when looking for ROI, the implementation of such technology seems difficult due to the following issues

  • Development time
  • License fee
  • Usage and many other factors

The only way to overcome these issues is to leverage several elements of games. For example, achievement-based systems such as leader boards can encourage the learners to reach various certification levels. Thus, the issues of implementing “games” will resolve and at the same time learning will become fun and interactive.

Short Videos

The existence of videos is not new to anyone. Even the short videos have been in existence for the past ten years. The challenging part is adopting an instructional design in a video. Even today there are many videos that fail to adopt such design. There were several constraints while creating a video which make implementation of instructional design difficult such as

  • Purpose
  • Quality
  • Cost

Usually, videos would just contain long lectures or a live event. These videos fail terribly as sitting for 30-60 minutes is not an option. These days people prefer videos that are

  • Short in length.
  • Engaging
  • To the point

Apart from on-job skills, the videos these days also focus on various professional development subjects. Additionally, videos have become even more professional to make them useful across departments.

 

Mobile Learning

The traditional classroom training and learning will always have its value. However, it fails when learners need to access information from anywhere anytime. The only solution for this problem is “mobile”. It is assumed that people will easily have access to the content through the web. However, it is not as easy as it looks from the outside.

5For example, most of the videos are not mobile optimized as they are flash based. There are many other issues but once these issues are covered there is no doubt that mobile learning is the best on-the-go training solution.

While these technologies have the power to change the game of e-learning, there are other technologies such as Big Data, VR and much more that might also have an effect on e-learning and training. However, these technologies will not be implemented unless any business need arises.