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Decimal Engineering Jobs in Florida (NOW HIRING)

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Decimal Engineering information

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$12

$24

$35

How much do decimal engineering jobs pay per hour?

As of Jul 17, 2026, the average hourly pay for decimal engineering in Florida is $24.70, according to ZipRecruiter salary data. Most workers in this role earn between $19.76 and $28.56 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Decimal Engineer, and why are they important?

To thrive as a Decimal Engineer, you need a solid background in mechanical or manufacturing engineering, familiarity with precision machining, and a relevant engineering degree. Proficiency in CAD/CAM software, CNC machinery, and quality control systems is typically required, along with certifications like Six Sigma or Lean Manufacturing. Strong attention to detail, problem-solving abilities, and effective communication are essential soft skills for this role. These competencies ensure accurate production, process optimization, and successful collaboration within engineering and manufacturing teams.

What types of projects do Decimal Engineering professionals typically work on, and how does this impact their daily responsibilities?

Decimal Engineering professionals often work on precision manufacturing projects, such as producing custom components for industries like aerospace, medical devices, and automotive. This means their daily responsibilities include interpreting technical drawings, setting up and operating CNC machines, ensuring quality control, and collaborating closely with engineers and quality assurance teams. Because projects can vary in complexity and scale, adaptability and strong attention to detail are crucial. Team members frequently communicate with customers and other departments to ensure specifications are met and deadlines are achieved.

What is Decimal Engineering?

Decimal Engineering refers to a specialized field focused on precision engineering and manufacturing components to exact decimal specifications, often required in industries like aerospace, medical devices, and electronics. The term is also associated with companies that provide custom metal fabrication, CNC machining, and engineering solutions for high-tolerance projects. Decimal Engineering professionals work with advanced machinery and software to ensure parts meet strict quality and measurement standards. Their expertise is vital for producing reliable, high-performance components where precision is critical.

What is the difference between Decimal Engineering vs Mechanical Engineering?

AspectDecimal EngineeringMechanical Engineering
Required CredentialsTypically requires specialized training or certifications in decimal systems or related fieldsBachelor's degree in Mechanical Engineering or related field
Work EnvironmentOften involves working with precision measurement, calibration, or software related to decimal calculationsDesign, analysis, and manufacturing in industrial or mechanical settings
Industry UsageUsed in fields like software development, engineering calculations, and measurement systemsWidely used across manufacturing, automotive, aerospace, and industrial sectors

Decimal Engineering focuses on precision calculations and systems involving decimal data, often requiring specialized certifications. Mechanical Engineering covers the design and analysis of mechanical systems and is more broadly recognized across industries. While both roles involve technical skills, Decimal Engineering is more niche, whereas Mechanical Engineering has a wider application scope.

What job categories do people searching Decimal Engineering jobs in Florida look for? The top searched job categories for Decimal Engineering jobs in Florida are:
Infographic showing various Decimal Engineering job openings in Florida as of July 2026, with employment types broken down into 33% Full Time, 34% Contract, and 33% Nights. Highlights an 100% In-person job distribution, with an average salary of $51,384 per year, or $24.7 per hour.
Vapor Phase Coating - Chemical Process Operator 2nd shift

Vapor Phase Coating - Chemical Process Operator 2nd shift

chromalloy

Oldsmar, FL • On-site

Other

Re-posted 8 days ago


Chromalloy rating

8.1

Company rating: 8.1 out of 10

Based on 26 frontline employees who took The Breakroom Quiz

132nd of 430 rated machine equipment manufacturers


Job description

POSITION SUMMARY:

This role is an Hourly - Direct Labor position that is responsible for the operation and supporting activities surrounding a particular coating process.  The primary equipment will be operated through HMIs (Human-Machine Interfaces) and a series of switches, pushbuttons, and other interactive control points.   Successful Operators will be capable to produce the required amount of product in a defined period while ensuring all EHS and Quality requirements are continuously satisfied.  The Operator will be required to work as part of a team with Operations Support, Engineering, Maintenance, and Management personnel.  Some overtime will be required on occasion to meet production and project schedules.  Limited travel may be required in support of training program.  

DUTIES AND RESPONSIBILITIES:

  • Perform complex and multi-level tasks from procedures and work instructions defining the tasks. 
  • Maintain timely and accurate record keeping using provided tools including digital and handwritten data entry and notes.
  • Maintain 100% compliance with PPE requirements while operating equipment and/or performing supporting operations, includes ensuring your PPE is functioning properly prior to starting a task.    
  • Participate and adhere to all Cpex initiatives (5S, TPM, SW, VM, etc) introduced into the process cell.
  • Effectively operate within a ‘Fixed Process’ environment with strong compliance (FAA, AS 9100) requirements governing product integrity. 
  • Effectively identify and communicate non-standard situations including EHS and Product Integrity concerns.  
  • Expected to follow best practice guidelines with respect to product and raw material handling requirements necessary in a high vacuum coating environment. 
  • Complete periodic TPM activities (Checklists) in support of assigned processes and equipment. 
  • Responsible to review your own work for completeness and quality compliance.  Examples of typical reviews:
  • reviewing and interpreting electronic data logs or trending charts at the HMIs,
  • manually measuring critical process outputs like part weights, surface roughness and physical dimensions,
  • visually identifying surface imperfections against standards,
  • confirming values from analog or digital gauges and displays incorporated into the equipment.   
  • Operate support equipment (pre/post coating).  Examples of equipment types:
  • abrasive blasting systems,
  • parts washers and/or aqueous cleaning lines,
  • high temperature ovens and furnaces,
  • material handling equipment,
  • surface enhancement equipment,
  • Masking of critical to quality demarcation lines with various styles of maskants

 

  • Support Coater Operators by performing
  • part loading/unloading,
  • fixture assembly/disassembly,
  • Maintaining metal coating fixtures for use in coater which includes visually verifying condition, removing residual coatings, and removing any contamination that may have affected the fixtures. 
  • Support the process team to complete standard rebuild and material loading tasks (i.e., Turn Arounds). 
  • Expect punctual and accurate time keeping for tasks performed in accordance with site Direct Labor recording standards. 
  • Cross training in other coating process areas as needed to support production requirements.  Will be required to complete the training program for each process prior to performed assignments in that area.

QUALIFICATIONS:

 

To perform this job successfully, an individual must be able to perform each essential duty satisfactorily. The requirements listed below are representative of the knowledge, skill, and/or ability required.

EDUCATION and/or EXPERIENCE:

  • High school diploma or general education degree (GED) required.
  • At least 2 years’ experience working in a production manufacturing environment preferred.
  • Additional Education, Training, Certifications, or Licenses that are applicable will be considered and may be used to supersede either of the other two requirements. 

LANGUAGE SKILLS:

  • Must be able to read, write, and communicate in English.
  • Read and interpret documents such as safety rules, operating instructions, and procedure manuals.
  • Write routine reports and correspondence either in digital or handwritten formats.
  • Communicate effectively with supervisor, engineers, and co-workers.

MATHEMATICAL SKILLS and SCIENTIFIC PRINCIPLES:

  • Required to perform basic mathematical functions with decimals, fractions, or percentages.   
  • Convert numbers from scientific notation to decimal form.
  • Convert units of measurement between English and Metric systems.    
  • Basic understanding of common scientific principles like fluid dynamics, thermodynamics, and energy is a plus.  

 

REASONING ABILITY:

  • Ability to apply commonsense understanding to carry out instructions furnished in written, oral, or diagram form.
  • Ability to deal with problems involving several concrete variables in standardized situations.

 

OTHER SKILLS AND ABILITIES:

  • Mechanically inclined individual that thrives in a hands-on, demanding environment with little direct supervision once assignments are handed out. 
  • Thrives as an individual contributor and a team player in some instances. 
  • Open and accepting to changes in work scope and/or procedures to meet CI and productivity initiatives. 
  • May be required to operate of forklift and/or crane (training provided).

PHYSICAL DEMANDS:   The physical demands described here are representative of those that must be met by an employee to successfully perform the essential functions of this job. Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions.

  • Climb stairs multiple times during a shift
  • Possess the manual dexterity to build or assemble small components with hand / pneumatic tools.
  • Some repetitive motions are required to perform these tasks (i.e., turning a wrench, cutting wire).
  • Lift floor to waist level – 35 lbs.
  • Lift waist to shoulder level – 35 lbs.
  • Carry on shop floor – 35 lbs.
  • Some job functions will require wearing a SAR (Supplied-Air Respirator) while performing some tasks.
  • Must be able to satisfy vision criteria including close vision, distance vision, peripheral vision, depth perception, the ability to adjust focus and see color.

WORK ENVIRONMENT: 

 

The work environment characteristics described here are representative of those an employee encounters while performing the essential functions of this job.

  • The employee is regularly exposed to extreme heat, sharp objects, and moving mechanical parts.  Propper and functioning PPE, Machine guarding, and interlocking are designed into the process for employee protection, but employee awareness to hazards and controls is essential to maintaining a safe work environment for you and your co-workers. 
  • Some tasks may introduce additional hazards associated with respiratory and skin irritants, asphyxiation, fall hazards, and electrical hazards including electrical shock or arc flash.  Where applicable, employees will be provided adequate training, PPE, and procedures to protect against these hazards. 
  • Generally, the work environment is maintained at a controlled temperature and humidity for comfortable working conditions, however, some tasks are performed in isolated areas where wet or humid conditions may exist.
  • The noise level in the work environment is usually moderate, but if performing work in areas deemed high noise areas, hearing protection will be supplied and required while in the designated area. 
  • The EB-PVD Coater is a source of ionizing radiation.  The machine design incorporates shielding to contain radiation so that exposure to employees in normal operating conditions is below background levels.  To mitigate risk from accidental releases, employees may be required to wear a radiation monitor (dosimeter) while present on the coater platform.  Radiation awareness training will be required of all employees that may work on the platform. 
  • Standard shop floor PPE requirements will be enforced as well.  As a minimum this includes eye protection and steel-toed shoes.  Other requirements may be added by EHS based on hazard surveys and potential in isolated areas. 

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