Tag Archives: 3d

Making 3D Face Models Look Beautiful And Attractive

Beautiful 3D face models are very often used by advertising agencies, special effects and other production studios in animations, advertisements and special effects.

3D Model of Female Face with hair,  highly realistic

3D Model of Female Face with hair, highly realistic

 

The 3d face models that are used are graphical representations of very beautiful faces with very attractive features. Whether the 3D face models is being used to to represent realistic humans or 3d characters, the 3d model must be beautiful.

 

Buy Face 3D Models or get them made to your specifications with our custom 3d service.

In many cases, the attractiveness of the 3d face models is a big requirement as beautiful people do “attract” our attention more than unattractive people.

So how do you adjust a 3d human face so that it’s beautiful?

There are certain characteristics that make people beautiful, like certain shape of the eyes, full lips, high cheekbones, etc.  First start by adjusting the 3d face model so that it follows the general human proportions.  Then, you further adjust the 3d face model using the list of characteristics below to give your 3d model a beautiful human face.

What makes the human face beautiful to someone is not universal, the culture and time in history also matters. However, as an overall guideline, beautiful faces are always very symmetrical and look healthy.

Below find what you can do to adjust your 3d human faces to make them more attractive.

How To Make Female 3d Face Models More Attractive

3D Model Face of Brazilian SuperModel Adrianna Lima

3D Model Face of Brazilian Supermodel Adrianna Lima

Here the assumption is that you are starting with an unattractive female face and want to make it more attractive.

  • Face: Make the overall face narrower and with less or no fat around the cheeks and chin areas.
  • Eyes: Increase the distance between the eyes (slightly).  Also give the eyelids thinner look and the eyelashes fuller, longer and dark.
  • Eyebrows: Make the eyebrows darker and narrower and give them an arc shape.
  • Cheek bones: Raise the cheek bones higher.
  • Lips: Make the lips full and symmetrical (top and bottom).
  • Nose: Give the nose a more narrow profile.
  • Skin: Use a suntanned skin tone that is even.

Also a very good reference to use are celebrities or buy stock 3d models of celebrities.  For female celebrities use all time gorgeous celebrities including like Grace Kelly, Audrey Hepburn, Lena Horne, Sophia Loren, Ava Gardner, Elizabeth Taylor, Marilyn Monroe, Diana Ross, Brigitte Bardot, Natalie Wood, Raquel Welch, Princess Diana, Angelina Jolie, Scarlett Johansson, etc.

No wonder makeup artists try to recreate these characteristics of attractive people and celebrities all the time.  Now let’s take a look at attractive faces for males.

How To Make  Male 3d Face Models More Attractive

3D Head of an attractive male hero

3D Head of an attractive male hero

Here the assumption is that you are starting with an unattractive male face and want to make it more attractive.

  • Face: Make the overall face narrower, but the upper half should be broader in relation to the lower half of the face.   Also the face should have less or no fat around the cheeks and chin areas.
  • Chin: Make the lower jaw and chin more prominent.
  • Eyes: Give the eyelids thinner look and the eyelashes fuller, longer and dark.
  • Eyebrows: Make the eyebrows darker and full.
  • Lips: Give the lips a bit more fuller look and make sure that they are symmetrical (top and bottom).
  • Cheek bones: Raise the cheek bones higher.
  • Skin: Use a suntanned skin tone that is more brown but even.

Notice that beautiful human male faces share some of the characteristics with beautiful human female faces.

See more examples of stock 3D Face Models that you can buy. These 3d models have been made by skilled 3d artists and have been adjusted to look beautiful and still follow the basic human proportions of  high quality 3d human models.

Oil Refinery Industrial 3D Models

Mega Oil Gas Refinery 3D Model highly detailed

Mega Oil Gas Refinery 3D Model highly detailed industrial structure

Industrial Oil refinery 3d models are used to represent large industrial complexes specialize in processing and refining oil into more useful petroleum products. Oil refinery 3d models are often used to visualize refineries before they are built or when planning for construction and/or remodeling. Oil refineries have extensive piping running throughout it grounds. These pipes transport the fluids and by-products to their large chemical processing units.

An oil refinery processes crude oil and  then refines into petroleum products, such as gasoline, diesel fuel, heating oil, asphalt base, kerosene and liquefied petroleum gas.

Refinery 3d models are typically used in scenes to represent these large industrial structures. The entire refinery can comprise of several structure or units.

Each section or portion of the refinery performs a specific function including the actual processing  of distillates (gasoline, kerosene, diesel, fuel oil, lubrication oils, asphalt etc), processing of steam and cooling water, power generation, transport, etc.

Industrial Factory Refinery3D Model

Industrial Factory Refinery 3D Model with piping and mechanical equipment

Oil refinery 3d model scenes typically show the refinery complex structures including the building structures, mechanical equipment, piping, cooling towers, generators, chemical equipment, etc. The scenes can also include the surrounding environment which typically comprises of a nearby river or sea shore and an oil ocean platform if the oil is drilled  from the ocean. The 3d refinery renders can also show the terrain and surrounding structures that provide access to transportation.

Refineries are located away from residential areas so its surroundings are industrial but with easy access to obtain and provide raw materials.

Some refinery 3d models include transport of crude oil by pipelines while others include other means of transportation including rail cars, road tankers or barges.

Oil refineries can be co-located or near other petrochemical  and manufacturing plants to allow easy access to large output refinery products for further processing. They can also be located near industrial plants that provide the refinery the chemical additives to blend.


Desert Oil Refinery Installation Industrial 3D Model

Desert Oil Refinery 3D Model Installation

Old Rusty Factory 3D Model meticulously modeled with high detail

Old Rusty Factory 3D Model meticulously modeled with very high detail

Tips for Managing and Empowering 3D Teams

Toyota Prius 2010 3d model vehicle car
Toyota Prius 2010 3d model vehicle car

Exceptional results are achieved when your 3D team can work together and have a clear understanding of your client needs. In order to work or collaborate across different disciplines, you need to actively manage and empower your team. Every individual on your team has a unique personality and skill set and what works for a 3D artist might not work for a 3D software engineer.

Teams that specialize in 3D computer graphic animations, architectural visualizations, and special effects have a wide set of skills that come from team members across several departments complemented with outside expertise and 3d model computer graphics.

These teams can include 3D modelers, rigging designers, motion capture, animators, texture & scenery designers, storyboard artists, software engineers, technical designers, etc.

3D studios that specialize in 3d animation, special effects and architectural visualization, need multi-disciplinary teams because no one individual has all the answers or all the skills that are needed.

JellyFish 3d model
JellyFish 3d model

Managing these types of creative teams with different personalities and skill sets can be very challenging. For example, 3D artists and animators often work with software engineers that specialize in developing applications for 3D modeling, rendering, animation, and special effects software. Their personalities and skill sets are very different.

3D animators have excellent storytelling and computer animation skills while software engineers can effectively develop, implement, test, and support the 3D software.

The key to managing your 3D team is to empower them to become a high-performing team that can work together to win. In order to do this start by empowering each individual in your team.

EMPOWER YOUR TEAM

A sports coach helps each player become the best team player, so that they can develop and use their talents together as a team and win the game. An 3D manager can also empower the team to win and meet the objective. There are many ways that a 3D manager can empower their team including fostering trust, open communication, building pride, etc.

Every individual on your team is unique and what works for a 3D artist might not work for a 3D software engineer. You know that your have empowered your team when they are truly convinced that whatever they have set out (as a team) will work. This empowerment creates excitement and unleashes your team’s creativity.

3D Model of transformer robot bumble bee
3D Model of transformer robot bumble bee

GIVE YOUR TEAM THE OVERALL DIRECTION, BUT LET THEM BE THE EXPERTS

Give your team the overall direction and stay back! Take the role of a coach rather than micro-manager. Guide your team to find the answers and make the best decision. Ask for proof or clarification of without telling your team what to do. This will allow your team will collaborate with each other across disciplines and each team member will bring their own expertise to the table.

Remember, criticism without a specific purpose or direction is not productive for your team.

MANAGE AND EMBRACE CHANGE

Movie directors and producers actively manage the film production process which very often requires many changes along the way. They work with actors, cameramen, set, costume designers, special effect designers, and film editors to produce the final cut of the movie.

Your 3D team must also be ready to embrace and adapt to changes, such as getting outside tools and expertise, such as custom 3d modeling and rendering services that can customize 3d models and save time and money.

Change is an inevitable part of the process, especially when you are part of a multi-disciplinary team. Team members with very different skill sets, such as the 3D artists and 3D software engineers must learn how to work and collaborate together and be open to changing direction.

Managing creative teams, such as a teams that create 3D animations, architectural visualizations, and special effects, is similar to managing sports and entertainment teams, everyone must work together to win. 5gsyvbznp3

Formula One Racing 3D Models

High detailed new Sauber Formula1 2009, V-Ray scene setup included
High detailed new Sauber Formula1 2009, V-Ray scene setup included

Formula One Racing 3D Models are graphical representations of formula one racing cars. These computer graphics are used instead of the actual formula 1 race car when it is not very practical to use the real one in special effects for films, marketing materials, or video games.

3D Model computer graphics offer many advantages including the ability for a 3D graphic artist to quickly incorporated very realistic 3d models to print, web, video, special effects, games, etc.

Buy Formula One Racing 3D Models or get them made to your specifications with our custom 3d service.

Sometimes it is not very practical to have the actual race car because of the expense of transporting, insuring, and preparing the set for a movie, tv advertisement, or photo shoot. Therefore, advertising agencies and post production studios can easily integrate stock and customized computer graphic representation of formula 1 race cars into their projects without the expense of a movie set or photo shoot.

Ferrari F2008 Formula One race car from the 2008 season, very accurate 3d models
Ferrari F2008 Formula One race car from the 2008 season, very accurate 3d models

When looking to use 3d models of formula 1 racing cars it is important to know that Formula One, is also referred to as Formula 1 and F1, and it is currently officially known as the FIA Formula One World Championship. The formula is the actual set of rules to which all the cars and drivers must comply.

Also, Formula One has seasons every year in many countries and they comprise of a series of races or Grands Prix. These are held on purpose-built circuits, former public roads and closed city streets. The results of each race are combined to determine the winning driver and the winning constructor(s).

Formula One cars have specialized chassis, engines, electronics, steering, suspension, tires, etc. Highly detailed formula one 3D models include such details. Formula One cars race at very high speeds above 200 miles per hour (320 km/h).

They are very capable of pulling 5G forces in some curves requiring the specialized drivers to wear suits for protection and to counteracts the effects of the gravity pull forces. The performance of the race cars and drivers is highly dependent on electronics, aerodynamics, suspension, gear, special tires, etc.

Mercedes-Benz w125 Formula 1 Grand Prix Cars Vehicle Sport Racing
Mercedes-Benz w125 Formula 1 Grand Prix Cars Vehicle Sport Racing

Formula One 3D Models can be search for and classified by the CHASSIS-ENGINE constructor.

The title or winner of Formula One World Champion Constructor is awarded to the car “make” that has scored the most points during the course of the season, where a car’s make takes into account both engine and chassis. If a car’s chassis and engine constructor are the same then the make is simply the name of that one constructor.

However, when the chassis and engine are constructed by different entities then the make of the car comprises both chassis-engine.

Search and buy stock 3d models of sport and racing cars.

Unmanned Aerial Vehicle UAV 3D Models

A detailed model of the Desert Hawk III complete with texture sets and all components are parented and pivoted for animation

3D Model Global Hawk (High Altitude Endurance UAV) was intended for missions requiring long-range deployment and wide-area surveillance or long sensor dwell over the target area.

Unmanned aerial vehicles (UAV) 3d models represent “aerial robots pilots” flying powered aircrafts and/or systems.UAV provide the great advantage of virtually eliminating any potential for human loss because do not carry human operators. This makes them very suitable for missions that are too dangerous for a manned aircraft.

UAV are controlled from a remote location or fly based on a pre-programmed flight plan and are recovered for repeated flights.

Most UAV 3d models are used to simulate reconnaissance and attack missions, and some are used to visualize their use in civil applications. UAV 3D models often contain exterior and interior details such as their remote and onboard flight systems that allow them to be piloted remotely (by radio control).

Buy UAV 3D Models
or get them made to your specifications with our custom 3d service.

There is a wide variety of UAV 3d models available in different shapes, sizes, configurations, and characteristics. There are two major classes of UAV; the tactical UAV and the endurance UAVs. Below are examples of popular UAV 3d models.

3D Model of Predator (Medium Altitude Endurance UAV) which provides imagery intelligence to satisfy Joint Task Force and Theater Commanders at ranges out to 500 nautical miles.

3D Model of Predator (Medium Altitude Endurance UAV) which provides imagery intelligence to satisfy Joint Task Force and Theater Commanders at ranges out to 500 nautical miles

Other types of UAV include the Micro Unmanned Aerial Vehicles (MAV), which are very small unmanned aircraft (less than 15cm/6in. in any dimension).

Buy stock UAV 3d models.

High detail low-impact model of a MQ-1RQ-1A Predator Reaper reconnaissance UAV. USAF color scheme

3D Model of MQ1 Predator rendered with a desert background

3D Model of Desert-Hawk II UAV with Remote Flight Control System

3D Model of Desert-Hawk II UAV with Remote Flight Control System