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Design Engineers are responsible for the creation, development, and improvement of products, systems, and structures. They use their knowledge of engineering principles, materials, and manufacturing processes to design and develop new products, improve existing ones, and solve problems that arise during production. The role of a Design Engineer is a challenging and rewarding one and requires a combination of education, experience, and skill. In this blog, we will be exploring the route map to becoming a Design Engineer. 1. Earn a Bachelor's Degree When selecting a bachelor's degree in an engineering field such as mechanical, electrical, or aerospace engineering, there are several factors to consider: Curriculum Faculty Location Cost Specialization Ultimately, the best way to select a bachelor's degree program in engineering is to research multiple options and visit the campus if possible, to get a sense of the program's culture and resources. Talk to current students, professors, and alumni to get the best information and make an informed decision. 2. Gain relevant work experience Internships: Many engineering companies offer internships to students and recent graduates. These internships provide hands-on experience and the opportunity to work on real projects with experienced engineers. Entry-level positions: Some engineering companies may also offer entry-level positions for recent graduates with limited experience. These positions can provide a stepping stone to more advanced roles, and allow you to gain experience in a specific area of engineering. Freelancing: You can work as a freelancer and take on small projects from different companies. This will give you experience in different sectors and help you build a portfolio of work. 3. Obtain a Master's in product design or manufacturing engineering. There are several ways to obtain advanced training in product design or manufacturing engineering: Specialized certificate programs Professional development courses Online learning 4. Learn CAD Software CAD, or Computer-Aided Design, is a software tool that allows engineers and designers to create detailed 2D and 3D models of their designs. It can be used to create technical drawings and schematics, as well as detailed 3D models that can be used for prototyping, testing, and manufacturing. This is an important skill to become a Design Engineer Most Popular CAD Software that you can learn Solidworks CATIA Siemens NX Fusion 360 Creo Parametric Inventor Ansys Workbench 5. Take a course in 3d printing A course in 3D printing, also known as additive manufacturing, can provide you with the knowledge and skills needed to design and produce three-dimensional objects using a variety of materials and techniques Design for additive manufacturing: A course in 3D printing can teach you about the specific design considerations for additive manufacturing, such as the use of support structures and the effects of layer thickness on the final product. Software: You'll learn how to use 3D modeling software to create 3D printable models, and how to prepare models for 3D printing using slicing software. Materials: You'll learn about the different materials that can be used for 3D printing, and the properties of each material, which can help you choose the right one for your project. 6. Network and build professional relationships Networking is an important aspect of becoming a design engineer. It allows you to connect with other engineers and industry professionals, learn about new developments in the field, and gain insights into different companies and career opportunities Networking can be a powerful tool in your journey to becoming a design engineer. Building a strong network can help you gain access to new opportunities, learn from experienced professionals, and advance your career in the field. In conclusion on how to become a Design Engineer Becoming a design engineer is a challenging and rewarding career path that requires a combination of education, experience, and skill. By earning a bachelor's degree in an engineering field, gaining relevant work experience through internships or entry-level engineering positions, obtaining advanced training in product design or manufacturing engineering, and developing a solid portfolio of work, you can set yourself on the path to a successful career as a design engineer. Networking and building relationships with other engineers and industry professionals can also help you gain access to new opportunities and advance your career. Remember that continuous learning is important to keep up with industry developments and technological advancements. With dedication, hard work, and a commitment to your craft, you can achieve your goal of becoming a design engineer. Follow BK Engineering on Social Media: Linkedin: https://in.linkedin.com/company/bk-engineering-in Instagram: https://www.instagram.com/bkengineering Facebook: https://www.facebook.com/bkengineering.in Twitter: https://twitter.com/bkengineeringin Website: https://bk-engineering.in/ YouTube: https://www.youtube.com/@bkengineering

Solidworks is the most popular CAD software used by designers to create models of almost anything. If you're looking for a chance to learn Solidworks, you have come to the right place. We have listed some of the best sites where you can learn about Solidworks without being worried about your time being wasted or money spent on courses. 1. Solidworks for Beginners: This course, offered by LinkedIn Learning, is geared towards complete beginners and covers the basics of Solidworks from start to finish. It includes video lectures, quizzes, and hands-on exercises to help you learn the software and build your skills. 2. Solidworks for Non-Engineers: This course, offered by edX, is designed for those with little to no engineering background. It covers the fundamental concepts and techniques of Solidworks and includes video lectures, quizzes, and hands-on projects. 3. Solidworks basic Advance to Training: This course, offered by BK Engineering focuses on using the Solidworks training course and teaches SolidWorks is a 3D modeling, parametric application software. It improves visualization, collaboration, and innovation, besides improving efficiencies in every downstream function of the product development process. 5. Solidworks Essentials by udemy focuses on using Solidworks for Beginners who want to be familiar with design software and Those who use SolidWorks and want to learn about commands and features These are just a few of the many free Solidworks courses available online. Whether you're a beginner or looking to hone your skills, there's a course out there to fit your needs. Happy learning! Follow BK Engineering on Social Media: Linkedin : https://in.linkedin.com/company/bk-engineering-in Instagram : https://www.instagram.com/bkengineering Facebook : https://www.facebook.com/bkengineering.in Twitter : https://twitter.com/bkengineeringin Website : https://bk-engineering.in/ YouTube : https://www.youtube.com/@bkengineering

Automotive engineering is a branch of engineering that focuses on the design, development, production, and operation of vehicles, including cars, trucks, motorcycles, and off-road vehicles. There are many different careers within the field of automotive engineering, ranging from research and development to manufacturing and testing. Here are a few examples: Research and Development Engineer : These professionals work on the design and development of new vehicle technologies, including engines, transmission systems, and safety features. They may also be involved in the testing and prototyping of new technologies. Manufacturing Engineer : These engineers focus on the production of vehicles, overseeing the manufacturing process and working to improve efficiency and reduce costs. They may be involved in the design of production lines and the development of new manufacturing techniques. Testing Engineer : These professionals are responsible for ensuring that vehicles meet safety and performance standards. They may conduct vehicle testing in a variety of environments, including on the road, in a laboratory, or on a test track. Sales Engineer : These engineers work in the sales and marketing department of an automotive company, helping to promote the company's products and technologies to potential customers. They may also be involved in the development of sales and marketing strategies. Service Engineer : These professionals work in the service and repair department of an automotive company, diagnosing and repairing problems with vehicles. They may also be involved in the training of technicians and the development of service procedures. There are many other careers in automotive engineering, including roles in supply chain management, quality control, and finance. The field is constantly evolving, and new technologies and innovations are constantly emerging. As a result, there are many opportunities for professionals in the automotive industry to continue learning and growing throughout their careers. Follow BK Engineering on Social Media: Linkedin : https://in.linkedin.com/company/bk-engineering-in Instagram: https://www.instagram.com/bkengineering Facebook: https://www.facebook.com/bkengineering.in Twitter: https://twitter.com/bkengineeringin Website: https://bk-engineering.in/ YouTube: https://www.youtube.com/@bkengineering

Computer science, electrical (or electronics) engineering, and mechanical engineering are the top engineering domains chosen by Indian college students. There are multiple sub-domains of mechanical engineering, including Computational Fluid Dynamics (CFD), FEA, Design Engineering, Automotive Engineering, Thermodynamics, and others. The majority of them now involve extensive computations and analysis using computational tools and software. Here are the top 10 mechanical engineering jobs in India that you may apply for if you have a degree in this discipline. 1. CFD Analyst CFD is a branch of mechanical engineering in which computation is a key component. Mechanical engineers have the most demand for CFD roles in the employment market, with the biggest salary range. You'll need a good foundation in fluid mechanics, heat transfer, and thermodynamics, as well as the ability to apply computational tools like Converge or Ansys Fluent to solve these problems. Using software tools like MATLAB or Python, you'll have to solve governing equations like the Navier-Stokes equation, Euler equation, and Fick's Law. You should also be aware of what happens in the background when the solver works on your problem. 2. CFD Engineer A CFD engineer performs comparable duties to a CFD analyst. A CFD engineer must be well-versed in the same fundamental concepts as a mechanical engineer, but the task will be more engineering-oriented. Working with the technical design team, you should use the results of the CFD study to suggest changes and ensure that the product design and performance fulfil technical and functional requirements. 3. Design Engineer Mechanical engineering graduates and automotive engineers are increasingly interested in Design Engineering. Design engineering used to be limited to solid modelling or surface engineering, but things have changed dramatically in the last few years. You can currently apply for jobs in wire harness design, automotive mould design, BIW (Body in White) fixture design, plastic modelling, and a variety of other fields. Keep in mind that this field is expected to grow over the next decade, so you can expect a slew of new design-related positions to emerge. 4. CAE Engineer Computer-Aided Engineering (CAE) is the application of computer software to several engineering areas such as finite element analysis (FEA), computational fluid dynamics (CFD), and multibody dynamics (MBD), among others. You'll need to know how to use pre-processing tools like ANSA or HyperMesh, as well as programming languages like MATLAB or Python, as a CAE engineer. Calculating heat and fluid flow calculations, simulating operations like casting or moulding, and visualising the findings would be part of your job. 5. FEA Engineer The examination of a macro object using small rectangular elements is known as Finite Element Analysis (FEA). In addition to pre-processing software, you should be familiar with solid mechanics, material strength, and mathematical topics such as linear algebra and differential equations. If you're familiar with tools like Ansys Workbench, LS-DYNA, Abacus, or NASTRAN, you'll have a lot of options as an FEA engineer. Noise, vibration, and harshness (NVH) and durability are two hot subjects in FEA. 6. Simulation Engineer A CFD or FEA engineer that specialises in simulation procedures is known as a simulation engineer. Engineers must test the performance, durability, safety, and functionality of engineering solutions in a virtual environment for a variety of jobs. Simulations save time and money since any errors or mishaps may be swiftly corrected in the actual model rather than causing damage to an expensive machine like a submarine or helicopter. 7. Crash Engineer Explicit dynamics is a sub-topic of FEA that deals with high-velocity engineering impacts, akin to what happens in a crash. Manufacturers must now test their vehicles in a crash test before beginning the mass production process, thanks to the current implementation of safety requirements for autos around the world. As a crash engineer, you should use pre-processing tools, FEA software, and, if necessary, simulation to ensure that the manufactured vehicle meets all safety standards. 8. Pre-Processing Engineer If you opt to work as a pre-processing engineer, you will be fully responsible for the usage of pre-processing tools such as ANSA or HyperMesh, which have a wide range of CAD and solver interfaces. The fact that this domain is extremely specialised is both a benefit and a disadvantage. Being an expert in this field will put you in high demand across many businesses, but going deep into pre-processing can make it difficult to move into other fields with the same competence later in your career. 9. Application Engineer An application engineer could be the right job for you if you don't know how to code but are familiar with software tools and mechanical engineering essentials. CFD, FEA, and MBD application engineers are the three standard positions available. Interacting with clients to understand their needs and maximising the use of digital tools to do this would be part of your job. 10. Electric and IC Integration Engineer Most automotive and mechanical engineering firms have recently added the post of electric and IC integration engineer. IC (Internal Combustion) engines are used in practically all vehicles today, however electric vehicles are likely to be the transportation mode of the future. This domain entails combining existing automobile technology with futuristic concepts. You must understand the principles of hybrid electric vehicles, controls, and battery management systems to perform this job. Chemical and materials engineers work on battery and fuel technologies for these vehicles, while mechanical engineers focus on developing the engine and testing the automobile for safety and performance. Conclusion As a result, mechanical engineering is a flexible engineering area with numerous high-paying and high-growth job opportunities. You must be familiar with core engineering ideas, the operation of software applications, and the integration of both for these professions. In the next years, these top 10 mechanical engineering responsibilities will give rise to several other specialised employment, which is good news for today's college students. Follow us on our Social Media: Linkedin | Instagram | Facebook | Twitter | Website

Manufacturing engineers are those who design and improve manufacturing systems. They work with industrial or commercial designers to redesign the products to be durable with reduced costs. In 7 Steps, Learn How To Become A Manufacturing Engineer: Step 1: Look at manufacturing engineering programs How much schooling you need to become a manufacturing engineer is one of the first things to think about. We found that bachelor's degrees are held by 73.4% of manufacturing engineers. We discovered that 9.1% of manufacturing engineers hold master's degrees, which is higher education. Even though a college degree is typically required for manufacturing engineers, one can nonetheless become one with just a high school diploma or GED Step 2: Develop manufacturing engineer skills Before applying for a job, it would be a good idea to advance your manufacturing engineering skills here are some skills that manufacturing engineer job descriptions frequently feature. CAD Solidworks Sigma Project Management CNC Product Quality Step 3: Finish the necessary training or internship On-the-job training for manufacturing engineers lasts, on average, 3 to 6 months after they are hired. New manufacturing engineers gain the knowledge and abilities necessary for their particular position and employer throughout this time. Step 4: Obtain certificates for manufacturing engineers. Certifications can demonstrate to employers that you possess the minimum knowledge required for this career. You may become a more appealing candidate as a result of them. Even if a job doesn't require a certification, having one could make your application stand out. Additionally, the certification process can teach you new abilities that you can apply to your job. Six Sigma Green Belt Engineer In Training Certification (EIT) Certified Manufacturing Engineer (CMfgE) Certified Manufacturing Specialist (CMS) Microsoft Dynamics AX 2012 Lean Manufacturing Six Sigma Black Belt Certified Agile Developer (CAD) Project Management Professional (PMP) Step 5: Analyse manufacturing engineer responsibilities When deciding whether to pursue a career as a manufacturing engineer, it's crucial to understand the duties and obligations necessary for this profession. Maintain a lean production environment while pursuing six sigma principles. In the transformation of NPIs to sustaining products, a key liaison is in charge of managing external contract manufacturers. Manage all aspects of facility maintenance and repairs, including chillers, HVAC, plumbing, and electrical. Step 6: Prepare your resume You can start writing your resume once you have reviewed the necessary qualifications and duties for the position. Hours, days, or even weeks may pass while putting all into perfecting a résumé. No need to worry; we made a resume builder with hints and samples of duties, responsibilities, and a summary to make the procedure as simple as possible. Step 7: apply for a position as a manufacturing engineer. Now that your resume is prepared, it's time to look for new employment. Think about the following advice for a fruitful job search: Check out job boards to find relevant postings. Use your professional network as a resource. Directly contact the businesses you're interested in working for Beware of job frauds You typically require a bachelor's degree plus 1-2 years of experience to become a manufacturing engineer. Process engineers, project engineers, and industrial engineers hold the most prevalent positions before becoming manufacturing engineers. As a manufacturing engineer, obtaining a Six Sigma Green Belt certification will increase your salary. Follow us on our Social Media: Linkedin | Instagram | Facebook | Twitter | Website

A production engineer is in charge of keeping an eye on the manufacturing process, ensuring that everyone follows safety procedures, assessing the performance of the workforce, and brainstorming on how to maximize productivity to provide effective outcomes that will boost sales and profitability. To avoid production delays, production engineers do preventative maintenance, check the dependability of production machines, and fix discrepancies. Additionally, they pinpoint areas for manufacturing process improvement and advance best practices. A production engineer must be educated about technical developments and apply suggestions for reducing costs without compromising service quality. How To Become a Production Engineer Earn a Degree To start your career as a production engineer, you typically need a bachelor's degree in chemical engineering or a closely related discipline in order to stay a competitive option for employers. To be prepared when applying for entry-level roles and joining the workforce, concentrate on developing industry-specific skills during your studies. To achieve your bachelor's degree and gain the essential on-the-job skills before entering the workforce, you could be required to complete a production engineer internship. Choose a Specialty in Your Field You might be required to select a specialization in your profession as a production engineer. Choose the area of production engineering where you feel most confident, and then continue to take proactive actions to advance in that area. Get an Entry-Level Position as a Production Engineer You'll normally start your career as a Production Engineer once you've earned a Bachelor's Degree in chemical engineering or a closely related discipline. Generally, after earning your four-year Bachelor's degree in a related field, you can work as a production engineer. You could want to look into becoming certified in continuous improvement, six sigma, or another related field, depending on the kind of production engineer career you're pursuing. Advance in Your Production Engineer Career There are numerous levels in the professional path for production engineers after entry-level. To advance to the next seniority level position as an entry-level Production Engineer, it may take two years. For each advanced Production Engineer position, you need to have amassed roughly two years of experience at the preceding level. To enhance your career as a production engineer, you might need to complete extra coursework, earn an advanced degree (such a Master's Degree in a related subject), or obtain specialized certifications. Continued Education for Your Production Engineer Career Path Not all businesses and industries mandate ongoing education to further your career as a production engineer. However, obtaining this degree can make it easier for you to move up to employment with greater pay. Chemical engineering graduate degrees can be earned in as little as 4 years. Graduate degree holders typically earn more compared to non-graduate degree JOB DESCRIPTION FOR A PRODUCTION ENGINEER You might ask yourself, "Should I become a production engineer?" after learning what a production engineer does. You could make a decision using the information in this section. According to the Bureau of Labor Statistics, the growth rate for production engineers is "greater than average" compared to other occupations, coming in at 8% between 2018 and 2028. In fact, 23,800 new positions for production engineers are expected to become available by 2028. Follow us on our Social Media: Linkedin | Instagram | Facebook | Twitter | Website

Automation engineers are experts at utilizing technology to manage product production and delivery. They develop, program, and test processes for automated machines. Anywhere where operations are predominately performed by robots or other automated technology, such as automobile manufacturing or food processing factories, will employ you as an automation engineer. In 6 Steps, Learn How To Become An Automation Engineer: Step 1: Look at automation engineer training Step 2: Improve your abilities as an automation engineer Step 3: Complete the appropriate training or internship Step 4: Study the responsibilities of an automation engineer. Step 5: Write a resume Step 6: Submit an application for a position as an automation engineer IMPORTANT STEPS TO TAKE TO BECOME AN AUTOMATION ENGINEER Step 1: Look at automation engineer training How much education you need is one of the first things to think about if you want to work as an automation engineer. According to our research, automation engineers hold a bachelor's degree in 69.1% of cases. In terms of higher education, we discovered that master's degrees are held by 16.1% of automation engineers. Despite the fact that most automation engineers hold a college degree. Step 2: Improve your abilities as an automation engineer Before applying for a job, it will be a good idea to strengthen your automation engineer skills. The following are some abilities frequently mentioned in job descriptions for automation engineers: Python Test Scripts PLC HMI Java Control Systems Step 3: Complete the appropriate training or internship In-work training for automation engineers typically lasts between three and six months. New automation engineers pick up the know-how necessary for their particular position and employer throughout this period. Step 4: Study the responsibilities of an automation engineer. It's critical to understand the responsibilities and obligations of an automation engineer before deciding to pursue this career. Most positions for automation engineers include a few standard duties. Following is a list of the role's primary responsibilities: Utilize GitHub to manage source code repositories, performing branching, merging, and labeling as needed. Control the planning and execution of desktop systems across the country, including LAN, e-mail, and PC development and support. In order to attain company-wide accreditation, conduct interdepartmental audits and document the results with associated corrective action requests. Step 5: Write a resume After verifying your qualifications and understanding of the duties of the position, you may begin drafting your resume. It can take hours, days, or even weeks to complete all that goes into writing the ideal CV. Step 6: Submit an application for a position as an automation engineer Now that your resume is prepared, it's time to look for new employment. Think about the following advice for a fruitful job search: Check out job boards to find relevant postings. Use your professional network as a resource. Directly contact the businesses you're interested in working for. Beware of job frauds When it comes to the key competencies needed to become an automation engineer, we discovered that python was stated on a number of resumes by automation engineers (12.6%), along with test scripts (5.5%), and plc (5.4%). These kinds of hard skills are advantageous to possess while carrying out crucial career duties. Follow us on our Social Media: Linkedin | Instagram | Facebook | Twitter | Website

If you have a background in mechanical engineering, you may be familiar with physics and mathematics. You might also be familiar with the terms Computer-Aided Design (CAD) and Computer-Aided Manufacturing (CAM) (CAM). It's conceivable to struggle to get full-time work despite mastery of these core concepts. In this post, you'll learn 5 things you didn't know about mechanical engineering that will help you better understand the abilities required to succeed in this interesting career. 1. DO NOT UNDERESTIMATE THE TOOL EVALUATION If you've never heard of the term "tool test," now is the time to learn more about it. Every mechanical engineer should devote time to improving their tool expertise, as it is a need for obtaining a core engineering position. In your interview, you will be asked many questions about the tool test if you are looking for technical employees in the design, FEA, or CFD area. The company will first put you through a series of technical interviews. After passing that round, you'll be asked to apply the theoretical aspects you learnt in an industry-oriented project in the "tool test." Mechanical engineering is a discipline in which you learn via experience. As a result, in order to work in core engineering, you must demonstrate your proficiency in a given tool over a set length of time. 2. THEORETICAL CONCEPTS ALONE ARE INSUFFICIENT FOR CRACKING THE INTERVIEW Mechanical and automotive engineers must certainly increase their theoretical understanding in order to pass the technical phase of business interviews. However, simply knowing about the theoretical parts will not help you pass the tool test: you must also understand how they are used in the real world. To bridge the gap between theory and reality, mechanical engineering students should obtain as much hands-on experience as possible. Not only should you study and revise the theory behind the tools, but you should also use them to create and develop your projects. Keep in mind that practical knowledge is a valuable asset that many employers seek in their employees. As a result, freshmen must enhance their theoretical knowledge with practical abilities. 3. START WORKING ON PROJECTS THAT ARE DIRECTLY RELATED TO THE INDUSTRY According to research, having prior experience working on industry-specific projects increases your chances of being interviewed and employed by the finest engineering firms. You learn the theory, and the tool, and then start working on the projects in these industry-oriented projects. Choosing a platform where you can work on projects with their licenced tools is the simplest approach to obtaining hands-on expertise with engineering software. If you know any 3D modelling software, for example, you can create your own 3D models and discover a way to use them in an FEA or CFD project. As a result, the industry will notice your work, and you will have a better chance of landing your dream job. 4. MECHANICAL ENGINEERS ARE EMPLOYABLE IN ONLY 6.4% OF CASES. Only 6.4 per cent of mechanical engineers who graduate from universities go on to work for one of the world's most prestigious core engineering firms. The remaining 93.6 per cent are unable to benefit from the above-mentioned three realities. To work as a mechanical or automotive engineer and gain a position in one of the major engineering firms, you must focus on having a strong understanding of specialised concepts. You must be able to put those thoughts into action with a specific tool and take part in a variety of industry-related projects. Only by strictly following these instructions will you have a chance to be one of the 6.4 per cents of graduate students. 5. SELECT YOUR DOMAIN AND FOCUS ON IT There are almost 40-48 subjects in engineering. Rather than attempting to comprehend all of them, you should select a handful that is relevant to your area of interest. Here's how it works in detail. In general, students must have a strong theoretical understanding of the four key disciplines in order to succeed in each domain. There is no need to memorise all 40 subjects because your attention will be on four primary courses that are relevant to your interest domain. This is why deciding on a field of interest is crucial to your career. To figure out which domain is best for you, you must first assess your own skills and weaknesses. You might be perplexed at first. You could be perplexed at first, so try out several tactics, put in some effort, and see if this is the correct domain for you. Mechanical engineering is a vast field with virtually limitless applications. If you're not sure where to begin, here are a few suggestions: Fluid dynamics, thermodynamics, heat transfer, jet propulsion, and gas dynamics are all included under CFD. FEA stands for structural analysis, solid mechanics, material strength, and finite element analysis. Machine design, engineering graphics, machine dynamics, and so on. Get familiar with the required tools to apply the theory underlying the domain once you have a solid conceptual understanding of the four disciplines. Getting as much experience as possible in that field makes it much easier to land a core engineering position. Conclusion You are accountable for working on all parts of your professional goals as a mechanical engineer. Remember that every small step you take brings you closer to your goal. Choose as many industry-relevant projects and internships as feasible to learn and comprehend the topics in your sector. These extras will not only help you gain essential work experience, but they will also help you improve your resume and increase your chances of landing your dream job. You're now one step closer to ultimate success with these 5 truths you didn't know as a mechanical engineer. Choose your career carefully, give it your all, be patient, and work hard to achieve your goals. Take a huge step in the direction of your dream job. Follow us on our Social Media: Linkedin | Instagram | Facebook | Twitter | Website

Nowadays anyone can learn anything that too for free. These are the few YouTube channels I found which provide quality education in the field - of "Front-End Development" Front-end web development is the development of the graphical user interface of a website, through the use of HTML, CSS, and JavaScript, so that users can view and interact with that website. Simplilearn Front-End Development Simplilearn is probably one of the best Youtube Channels out there which provides free courses online on multiple domains and Front End Development is one among it Course: https://youtu.be/Q8NPQ2RgWyg Follow us Twitter- https://twitter.com/BkengineeringI Facebook- https://www.facebook.com/bkengineerinng Website- https://bk-engineering.in/ For more info Please contact us at 7981328897 Email us at info@bk-engineering.in