How to Choose Aviation T-Shirt Designs

Choosing an aviation t-shirt design can be a very confusing task, especially if you’re not into airplanes yourself. However, this shouldn’t be the case. In general, there are certain categories you could check out when it comes to buying these specialty shirts. Some stores will have these categories, while others may not. However, we hope that this guide we’ve written below will give you a good idea of the variety of options on aviation t-shirts that you have.

1. Classic Airplanes. Almost every airplane enthusiast has a strong liking for classic airplanes. And why wouldn’t they? Classic airplanes often evoke a sense of nostalgia of the early days of flight. Some of these classic airplanes include the Wright Brothers’ Flyer, which made heavier-than-air flight possible. Another of these classic airplanes would be the Spirit of St. Louis. Flown by Charles Lindbergh in 1927, it was the first solo non-stop flight over the Atlantic.
2. Airplane Quotes. Where classic airplanes evoke a sense of nostalgia, airplane quotes often evoke a sense of pride for flying. These quotes often involve popular quotes by well-known figures in aviation. Meanwhile, other quotes could be about the things that are often associated with flight, such as freedom, spirit of adventure, and exploration. Aviation t-shirts with airplane quotes are best for those who love the men and women and the themes that are connected to flying.
3. Airplane Parts. Airplanes are feats of engineering. More than just enabling humans to fly, the engineering behind airplanes enabled humans to fly faster, higher, and sometimes without being detected. Thus, airplane parts are also popular aviation t-shirt designs. From heads up displays, to jet engines, to control panels, aviation shirts with airplane parts will surely fascinate grease monkeys. These are airplane enthusiasts who are into the engineering behind their favorite airplanes, and usually build their own model airplanes.

Picking the Right Aviation T-Shirt Design

Now that you know what popular aviation t-shirt designs are available, next comes the tricky part. Which among the three design options will the person like? The easy and straightforward option of course would be to ask him about his preferences about things related to aviation. Does he like classic airplanes? How about the pioneers of flight? Or the engineering behind the airplanes?

However, if you’re giving the shirt as a gift, you obviously don’t want to give away hints. Your next option would be to check out his collections related to aviation, be it model airplanes or magazines. You could also ask his friends for recommendations as they will have a good idea of what the person likes.

Titanium Use in Airplane Parts

Titanium is a useful material for constructing airplane parts for many reasons. For one, titanium is an alloy metal that is extremely light. For aircraft, this quality is critical as the aircraft must be light enough to lift from the ground without requiring more powerful (and bigger) engines to propel it. Titanium’s strength is also critical as aircraft experience harsh conditions and high work loads. In all, titanium is just what the doctor ordered for the large majority of fabricated sub-assemblies, which necessitate a low weight, long service life and high strength.

Titanium is able to endure numerous types of damage with little impact on the metal alloy itself. Titanium is able to hold up under heat and chemicals will not cause damage to the external composition of titanium. Environmental exposures do not break down titanium, even over long periods of time. Industrial damage will not affect the external structure. Furthermore, corrosive contaminants are not a concern when it comes to titanium products.

When specifically considering airplane engines, titanium proves to be an invaluable asset. Beginning in the 1980s, internal titanium sub-components have been used in airplane engines successfully. This amazing metal has been applied in the making of many engine parts including impellers, turbine stators, thrust outlet sheaths, typical rotating and static engine parts, compression disks and bearings. This alloy is typically applied in areas that require an exceptionally high strength, significant durability and low weight. These are critical elements, which must be considered when building an aircraft.

Another imperative area that requires great strength combined with light weight is the wing. Wing components are often comprised of titanium. In general, titanium is utilized when fabricating internal sub-assemblies which are capable of accommodating especially high flight loads. Titanium is also often used in the internal structure of the wing, particularly in wing boxes or wing spars related to the variable airfoil designs. In such a case, usual loads connected with static wing configurations are considerably magnified.

It is simple to understand the attraction of the use of titanium when constructing aircraft. Because of the many qualities of titanium, both airplane safety and performance are improved through the use of this magnificent material. Many modern designs feature titanium in the construction, if not overly than within the inner mechanisms of the aircraft itself. Airplane owners and passengers alike benefit, thanks to the strength and light weight factors that titanium possesses that help make aircraft perform better as well as be safer.

Titanium Metals in Aviation

Titanium metals make sense in aviation because of their attractive mechanical properties. A unique combination of physical and mechanical properties along with resistance of corrosion makes titanium ideal for aerospace demands.

Titanium’s high strength-to-density ratio meets the needs for airframe components and structures. Couple this with the resistance to corrosion and erosion that titanium offers and the metal is a dream come true. High strength titanium alloys prove superior when compared to aluminum alloys and structural steels. This holds true even as service temperatures increase. Additionally, titanium alloys provide attractive high temperature properties for application in auto engine components or hot gas turbine components.

Within the family of titanium alloys, a wide spectrum of strength and combinations of strength are offered. This allows critical components to be tailored to through optimal alloy selection. To accommodate needs, one must consider the crack growth and toughness, such as critical flaw size, or the strength and S-N fatigue. Being relatively unaffected by environments and seawater prove that the S-N fatigue strength of titanium alloys is high enough to be usable not only in aviation but by marine industries as well. Good SCC resistance is another trait of titanium alloys as most can be processed in order to supply high fracture toughness along with minimal environmental degradation when required.

An invisible, thin surface oxide film provides an extremely protective surface for titanium alloys. This enables the alloys to exhibit extraordinary resistance to an immense range of chemical environments and conditions. The film is comprised mostly of TiO2, and is highly adherent, tenacious and chemically stable. Furthermore if mechanically damaged the film can instantaneously and spontaneously re-heal itself using the least traces of moisture or oxygen presented in the environment. Titanium is specifically useful in aviation due to its superior resistance to localized attack and stress corrosions in hot, highly-oxidizing, acidic solutions when compared to those that cannot withstand severe attack, such as nickel- or copper- based alloys, stainless steels and most steels.

Titanium is a preferred and well-established heat transfer material. Heat exchangers such as plate/frame, shell/tube and others make titanium ideal for process fluid cooling and heating. Additional characteristics that make titanium optimal include a surface that promotes condensation, a very thin and conductive oxide surface film, strength, difficult-to-adhere-to surface (because of hardness and smoothness), resistance to fluid erosion and corrosion. With these attributes, overall initial life cycle costs, material requirements and heat exchanger size are reduced and more cost effective.

So next time you see a jet flying overhead or are boarding a plane for vacation, remember that you likely have titanium to thank. This remarkable metal not only makes air travel possible but helps make it safer as well.

Wireless Options For A Pilot Aviation Headset

Technological innovations of recent years have freed consumers from the restrictions of wired devices. Bluetooth, Wi-Fi, and mobile phones have essentially forced corded electronics into museums and history books. Following suit, aviation headset manufacturers have introduced a variety of choices for cordless aviator earphones.

Pilot aviation headset options have always offered aviators a fairly wide selection of features and prices. Within the past decade or so, headset companies have introduced models that incorporate the latest in cell phone and audio entertainment. More recently, earphone selections became equipped with Bluetooth offerings of these same audio and mobile phone features, freeing pilots from connecting to these devices via cords. Now, pilot headphones themselves are available without the restrictions of wired connections. Though wireless models have been around for several years now, new models and advanced features continue to hit the market.

How do they work?
Wireless headsets utilize the 2.4 GHz radio frequency band, which is commonly used for a variety of wireless data technologies around the world. The headsets work with a base unit, which plugs into the aircraft’s radio/comm. system through conventional headset jacks to send and receive transmissions over the 2.4 GHz RF (radio frequency). Audio transmissions jump between the headset and base unit, much like a cordless phone works with its docking station, to provide pilots with untethered cockpit communications.

Advantages of Going Wireless
Besides the obvious freedom of being unleashed from the aircraft’s communications system, wireless headsets provide many other benefits for users. At the top of the list is the lack of cords to work around. In the small cockpits of general aviation airplanes, headset cords are known to get caught in seat rails, tripped on by occupants entering and exiting the aircraft, and forgotten by wearers who attempt to move beyond the cord’s length. Wireless headphones negate the possibilities of cord damage and whiplash their wired brethren can incur.

Cordless headsets also provide a degree of utility not offered by tethered models. On noisy airport ramps, pilots now have the option of wearing their headsets during external preflight inspections and fueling operations. Audio and mobile phone Bluetooth features also permit pilots to make phone calls during these activities, enabling them to file a flight plan, reserve a car, or order fuel. This hands-free ability to multitask saves pilots time while also protecting their hearing. In addition, pilots can continue to converse with occupants of the aircraft as long as they remain within the headset’s usable range.

The selection of the 2.4GHz frequency is also a wise choice. Several nations around the world have reserved this frequency for wireless technologies, so these headsets are usable in numerous locales. As they employ the simplicity of cordless phone-like operation, use is easy and intuitive.

Drawbacks of Wireless Earphones
Cordless headphone technology is not without a few drawbacks. The lack of cords means the wireless system must employ a battery to function. Like all battery-powered devices, the cordless system must be periodically recharged to continue to operate. In addition, the global popularity of the 2.4 GHz frequency means the bandwidth can occasionally become saturated, resulting in possible interference. The requirement for a base unit also means the system is not completely free of wires, since the base device must be plugged into the aircraft’s radio/comm. system. However, these few drawbacks are usually minor issues and easily tolerable for the system’s positive attributes.

For greater cockpit freedom and utility, consider the benefits of a wireless pilot aviation headset. The ongoing development of wireless technology means aviation earphone manufacturers will continue to create and introduce new cordless options. For your next pair of headphones, consider the freedom of cutting the cord.

What You Need to Know Before Looking at Used Airplanes For Sale

Looking to buy used airplanes? Well before you start shopping decided exactly what your requirements are. This can help to narrow down the field. How far will you fly? How many passengers will you need to carry? Do you want an antique or a modern airplane? Will your needs change in the near future?

Types

Jet or Propeller? – Jets are much faster but more costly to buy and run.

New or Used? – Used are cheaper most aviation airplanes are over 20 years.

Classics and Antiques – These have a lot of appeal due to their looks and style. They are also great for using at air shows.

Attributes

Cruise – How fast do you need to fly? The cruise speed is the speed the airplane does at 75% power.

Performance – What range does the used airplane have? This is important to take into account when buying.

Seating – How many people do you need to carry? Seating configuration can also be important. Tandem Vs Side by side? Side by side makes it easier to talk to each other while tandem while give the pilot more visibility and legroom.

Wings – High-winged airplanes are better for sightseeing. Low-winged airplanes normally have better visibility for flying in busy airspace.

Landing Gear – Conventional or Tricycle? Tricycle gear is less complex and often has lower repair costs. Conventional is more rugged and sometimes has lower wind resistance

No matter what you are looking for used airplanes have all the benefits of a new plane with out the cost.

Before buying just think about what you need it for and get the best airplane to suit your needs.