manufacturing jobs

Jobs in NYC for Industrial Engineering

By David McKinney 29 September, 2023 2 mins read

Industrial engineers earn a high salary but have many opportunities to rise in the field. You can choose to work for a different employer, pursue an advanced degree, gain managerial experience, or move on to another job that pays better. These options can increase your income and make you eligible for promotions. If you are an Industrial Engineer, there may be opportunities to work in a research or design lab where you can get more information about the latest technology.

Job description

Industrial engineers can use their creativity and ingenuity to develop new production methods. They are interested in improving processes and reducing waste. They must communicate complex ideas to production staff in a clear, concise way. Industrial engineers need to communicate well and be able listen to the concerns and needs of all stakeholders.

For industrial engineers, a Bachelor's Degree in Industrial Engineering or a related field is required. Some employers prefer candidates with professional experience. Students interested in this career can also benefit from cooperative education programs. Industrial engineers may also have degrees in mathematics and computer science.

Salary

The average salary for an industrial engineer in NYC is $59,820. You have many options to increase your income. These include moving to a higher-paying job, earning advanced degrees, or gaining more experience. Management experience is a great way to increase your earning power. But, it is not easy to find jobs in NYC as an industrial engineer that pay a good salary.

There are many factors that affect the salary of industrial engineers in NYC. For entry level industrial engineers, the average salary is $82,657. Senior industrial engineers make an average of $145.936. An industrial engineer will receive an average bonus of $3,939.

Education Required

Multi-disciplinary professionals in industrial engineering design and implement new production procedures to increase efficiency. They apply logic and creativity to solve complex problems, such as reducing waste in materials, time, and labor. These engineers work in many industries, including manufacturing, healthcare, finance, and risk management. A bachelor's degree in a STEM area is required. Industrial engineers need experience as well as the academic requirements.

Industrial engineering professionals are in demand across industries, with job growth projected to increase by 14% over the next decade. The experience and education they have may make them more attractive to other job candidates. They need to possess a variety of skills and knowledge that will allow them to monitor production operations, analyze supply chains, and inform workers about new policies.

FAQ

What jobs are available in logistics?

There are different kinds of jobs available in logistics. Here are some:

Warehouse workers – They load and unload pallets and trucks.
Transportation drivers – They drive trucks or trailers to transport goods and perform pick-ups.
Freight handlers: They sort and package freight in warehouses.
Inventory managers: They are responsible for the inventory and management of warehouses.
Sales reps - They sell products and services to customers.
Logistics coordinators - They plan and organize logistics operations.
Purchasing agents are those who purchase goods and services for the company.
Customer service representatives - They answer calls and emails from customers.
Shipping clerks – They process shipping orders, and issue bills.
Order fillers are people who fill orders based only on what was ordered.
Quality control inspectors – They inspect incoming and outgoing products to ensure that there are no defects.
Others - There is a variety of other jobs in logistics. These include transportation supervisors and cargo specialists.

How important is automation in manufacturing?

Automation is essential for both manufacturers and service providers. They can provide services more quickly and efficiently thanks to automation. They can also reduce their costs by reducing human error and improving productivity.

How can I find out more about manufacturing?

Hands-on experience is the best way to learn more about manufacturing. You can also read educational videos or take classes if this isn't possible.

Is it possible to automate certain parts of manufacturing

Yes! Yes. Automation has been around since ancient time. The Egyptians invent the wheel thousands of year ago. To help us build assembly lines, we now have robots.

Actually, robotics can be used in manufacturing for many purposes. These include:

Automated assembly line robots
Robot welding
Robot painting
Robotics inspection
Robots that produce products

Manufacturing can also be automated in many other ways. For instance, 3D printing allows us make custom products and not have to wait for months or even weeks to get them made.

How can manufacturing avoid production bottlenecks

To avoid production bottlenecks, ensure that all processes run smoothly from the moment you receive your order to the time the product ships.

This includes planning for capacity requirements as well as quality control measures.

Continuous improvement techniques such Six Sigma can help you achieve this.

Six Sigma is a management system used to improve quality and reduce waste in every aspect of your organization.

It's all about eliminating variation and creating consistency in work.

What are manufacturing and logistics?

Manufacturing is the process of creating goods from raw materials by using machines and processes. Logistics encompasses the management of all aspects associated with supply chain activities such as procurement, production planning, distribution and inventory control. It also includes customer service. Manufacturing and logistics can often be grouped together to describe a larger term that covers both the creation of products, and the delivery of them to customers.

Statistics

(2:04) MTO is a production technique wherein products are customized according to customer specifications, and production only starts after an order is received. (oracle.com)
It's estimated that 10.8% of the U.S. GDP in 2020 was contributed to manufacturing. (investopedia.com)
Many factories witnessed a 30% increase in output due to the shift to electric motors. (en.wikipedia.org)
[54][55] These are the top 50 countries by the total value of manufacturing output in US dollars for its noted year according to World Bank.[56] (en.wikipedia.org)
In 2021, an estimated 12.1 million Americans work in the manufacturing sector.6 (investopedia.com)

External Links

investopedia.com

doi.org

web.archive.org

Human Ancestors Hall: Homo sapiens

How To

How to Use the Just In Time Method in Production

Just-intime (JIT), which is a method to minimize costs and maximize efficiency in business process, is one way. It allows you to get the right amount resources at the right time. This means that you only pay the amount you actually use. Frederick Taylor first coined this term while working in the early 1900s as a foreman. Taylor observed that overtime was paid to workers if they were late in working. He then concluded that if he could ensure that workers had enough time to do their job before starting to work, this would improve productivity.

JIT is about planning ahead. You should have all the necessary resources ready to go so that you don’t waste money. Look at your entire project, from start to end. Make sure you have enough resources in place to deal with any unexpected problems. You can anticipate problems and have enough equipment and people available to fix them. This way, you won't end up paying extra money for things that weren't really necessary.

There are many JIT methods.

Demand-driven JIT: You order the parts and materials you need for your project every other day. This will allow for you to track the material that you have left after using it. You'll also be able to estimate how long it will take to produce more.
Inventory-based : You can stock the materials you need in advance. This allows you to predict how much you can expect to sell.
Project-driven: This method allows you to set aside enough funds for your project. Once you have an idea of how much material you will need, you can purchase the necessary materials.
Resource-based JIT: This type of JIT is most commonly used. Here you can allocate certain resources based purely on demand. You might assign more people to help with orders if there are many. If you don't have many orders, you'll assign fewer people to handle the workload.
Cost-based: This is a similar approach to resource-based but you are not only concerned with how many people you have, but also how much each one costs.
Price-based: This approach is very similar to the cost-based method except that you don't look at individual workers costs but the total cost of the company.
Material-based: This is very similar to cost-based but instead of looking at total costs of the company you are concerned with how many raw materials you use on an average.
Time-based JIT is another form of resource-based JIT. Instead of focusing solely on the amount each employee costs, focus on how long it takes for the project to be completed.
Quality-based JIT is another variant of resource-based JIT. Instead of thinking about the cost of each employee or the time it takes to produce something, you focus on how good your product quality.
Value-based JIT: One of the most recent forms of JIT. You don't worry about whether the products work or if they meet customer expectations. Instead, your goal is to add value to the market.
Stock-based. This method is inventory-based and focuses only on the actual production at any given point. It's useful when you want maximum production and minimal inventory.
Just-intime planning (JIT), is a combination JIT/sales chain management. It refers to the process of scheduling the delivery of components as soon as they are ordered. It is essential because it reduces lead-times and increases throughput.