deBeer Air Flow Composite: The Ultimate Women’s Lacrosse Shaft

What are the key features of the deBeer Air Flow Composite Women’s Lacrosse Shaft. How does it compare to other models in the deBeer lineup. Why is the new FLEX handle considered a game-changer for women’s lacrosse players.

The Evolution of deBeer Lacrosse Shafts

In the world of women’s lacrosse, equipment innovation plays a crucial role in enhancing player performance. One standout product that has caught the attention of players and coaches alike is the deBeer Air Flow Composite Women’s Lacrosse Shaft. This cutting-edge piece of equipment represents a significant advancement in shaft design, offering a blend of lightweight construction and durability that caters to the unique demands of the women’s game.

deBeer, a respected name in lacrosse equipment, has made a bold move by transitioning all their 2011 handles to a straight design. This departure from their previous 8-degree transfer offset system marks a significant shift in their product line. The change allows for greater versatility, enabling players to mix and match deBeer handles with heads from various brands, including STX.

The Straight Handle Revolution

Why did deBeer make this change? The straight handle design offers several advantages:

• Increased compatibility across brands
• Simplified customization options for players
• Potential for improved control and handling
• Streamlined manufacturing process

This strategic move positions deBeer to capture a larger market share by appealing to players who prefer to customize their sticks with components from different manufacturers.

The Air Flow Shaft: A Closer Look

The deBeer Air Flow shaft has been a staple in the women’s lacrosse community for three seasons, earning a reputation for its innovative design and performance-enhancing features. What sets this shaft apart from its competitors?

Design and Construction

The Air Flow shaft boasts several key design elements that contribute to its popularity:

• Women’s diameter shaft requiring an adapter for custom head fitting
• Molded end cap for smooth bottom hand transitions
• Strategically placed holes at the bottom to reduce weight and improve grip
• Available in a range of team-focused colors

How do these features benefit players on the field? The women’s diameter ensures a comfortable grip tailored to female players’ hands. The molded end cap facilitates quick stick movements and enhances control during play. The air flow holes serve a dual purpose: they lighten the shaft while also helping to keep players’ hands dry during intense gameplay.

Addressing Common Concerns

Despite rumors suggesting potential safety issues with the air flow holes, real-world feedback from players has been overwhelmingly positive. Contrary to speculation, there have been no reported incidents of players catching their fingernails or fingers in these openings. This testament to the shaft’s safety and ergonomic design further cements its position as a top choice for women lacrosse players.

Color Options and Team Spirit

deBeer has always prioritized team identity in their product offerings. The Air Flow shaft is no exception, available in a variety of colors that allow players to match their equipment to their school or club team colors. This attention to aesthetics goes beyond mere vanity; it fosters team unity and pride on the field.

Unlike some manufacturers that opt for flashy graphics or trendy designs, deBeer maintains a classic, straightforward approach to color options. This focus on solid, team-oriented colors reflects the brand’s commitment to functionality and tradition in the sport of lacrosse.

The FLEX Handle: A Game-Changing Innovation

While the Air Flow shaft continues to be a popular choice, deBeer has introduced a new contender in their women’s lacrosse lineup: the FLEX handle. This latest addition promises to redefine expectations for composite lacrosse shafts.

True Temper Technology

What makes the FLEX handle stand out? deBeer has partnered with True Temper, a company renowned for producing some of the best women’s lacrosse handles in the industry. True Temper’s expertise, previously showcased in the highly regarded STX Afterburner, has been harnessed to create a shaft that combines strength, performance, and versatility.

Unique Diameter and Composition

The FLEX handle introduces a novel approach to shaft diameter:

• Neither men’s nor women’s standard diameter
• Sits between traditional sizes for optimal grip and control
• Carbon composite construction for unparalleled strength
• Extremely stiff design to maximize energy transfer

How does this unique design benefit players? Defenders will appreciate the robust construction when delivering checks, while attackers will find the shaft resilient enough to withstand defensive pressure. The stiffness of the FLEX handle ensures that no energy is lost during shooting or passing, potentially improving accuracy and power.

Customization and Availability

deBeer understands the importance of personal preference in equipment selection. The FLEX handle is available in standard black and silver colorways, catering to players who prefer a classic look. However, for those seeking something more unique, Longstreth.com offers an exclusive purple version of the FLEX handle.

This level of customization allows players to not only choose a high-performance shaft but also express their individual style on the field. The collaboration with Longstreth to offer exclusive color options demonstrates deBeer’s commitment to meeting diverse player preferences.

Expert Insights: Mike Rinier’s Perspective

To gain a deeper understanding of deBeer’s lacrosse shafts and their impact on the game, we turn to Mike Rinier, a seasoned lacrosse coach with nine years of experience in both men’s and women’s lacrosse. Rinier’s expertise, particularly in coaching goalies, provides valuable insights into the equipment needs of players across different positions.

Coaching Experience and Equipment Knowledge

Rinier’s background includes:

• 9 years coaching both men’s and women’s lacrosse
• Specialization in goalie coaching
• Custom stringing for Longstreth Women’s Sporting Goods
• Extensive knowledge of women’s lacrosse equipment and footwear

How does Rinier’s experience inform his equipment recommendations? His hands-on work with players across various positions allows him to understand the nuanced needs of different playing styles. This expertise is particularly valuable when assessing the performance of shafts like the Air Flow and FLEX in real-game situations.

Bridging Lacrosse and Other Sports

Interestingly, Rinier’s passion for lacrosse extends beyond the field. He actively seeks ways to incorporate lacrosse-style elements into other sports, demonstrating the versatility and potential crossover appeal of lacrosse equipment design. This innovative thinking aligns with deBeer’s approach to creating multi-functional, high-performance shafts that can benefit players in various aspects of their athletic pursuits.

The Legacy of Lacrosse Playground

To fully appreciate the context in which products like the deBeer Air Flow and FLEX handles are discussed and evaluated, it’s worth examining the role of platforms like Lacrosse Playground in the lacrosse community.

From Gear Reviews to Storytelling

Lacrosse Playground, founded in 2009 by Adam O’Neill, Harry Alford, and Thomas Alford, has undergone a significant evolution:

1. Initially focused on equipment reviews and tutorials
2. Provided early access looks at new gear and uniforms
3. Accumulated millions of visits over a decade
4. Relaunched with a focus on storytelling and comprehensive coverage

How has this shift impacted the lacrosse community? The transition from purely technical content to a more narrative-driven approach reflects the maturing of the sport and its fan base. This evolution allows for a more holistic discussion of equipment like the deBeer shafts, placing them within the broader context of player experiences and the sport’s culture.

Current Focus and Mission

Today, Lacrosse Playground aims to provide:

• Comprehensive coverage of lacrosse news
• Insights into sports betting and fantasy lacrosse
• Showcases of lacrosse lifestyles and personalities
• Multi-media content including articles, videos, and podcasts

This expanded scope allows for a more nuanced discussion of equipment like the deBeer Air Flow and FLEX handles, considering not just their technical specifications but also their impact on player performance, team dynamics, and the overall evolution of the sport.

Market Impact and Availability

The introduction of innovative shafts like the deBeer Air Flow and FLEX has undoubtedly made waves in the women’s lacrosse equipment market. But how has this translated to real-world availability and pricing?

Retail Presence and Pricing

While specific pricing information for the deBeer Air Flow Black Women’s Lacrosse Shaft is not provided in the original text, its presence on platforms like eBay suggests a healthy secondary market for these products. This indicates a strong demand and perceived value among players.

The availability of both new and used deBeer shafts on various retail platforms speaks to their popularity and durability. Players looking to acquire these shafts have multiple options, from authorized retailers to online marketplaces, allowing for competitive pricing and accessibility.

Long-Term Value and Performance

When considering the investment in a high-quality lacrosse shaft, players and coaches must weigh several factors:

• Initial cost versus long-term durability
• Performance benefits on the field
• Compatibility with preferred lacrosse heads
• Brand reputation and warranty support

The deBeer Air Flow and FLEX handles, with their innovative designs and quality construction, position themselves as premium options that offer value beyond their initial price point. The positive feedback from players and the endorsement of experienced coaches like Mike Rinier suggest that these shafts deliver on their promises of enhanced performance and durability.

As the women’s lacrosse market continues to grow and evolve, products like the deBeer Air Flow and FLEX shafts serve as benchmarks for innovation and quality. Their impact extends beyond individual player performance, influencing team strategies, equipment design trends, and the overall trajectory of the sport.

In conclusion, the deBeer Air Flow Composite Women’s Lacrosse Shaft and its newer counterpart, the FLEX handle, represent significant advancements in lacrosse equipment technology. By combining lightweight design, durability, and performance-enhancing features, these shafts cater to the diverse needs of women lacrosse players across all positions and skill levels. As the sport continues to grow in popularity and competitiveness, innovations like these will play a crucial role in shaping the future of women’s lacrosse, both on and off the field.

deBeer Women’s Air Flow handle

It is important to note that all the deBeer handles for 2011 will be straight as deBeer has done away with their 8 degree transfer offset system. This should allow deBeer to sell more handle and head combinations across all brands when before you were only able to use deBeer heads with their handles or perhaps STX 10 degree handles or heads. No longer.

One of the most recognizable models of the deBeer women’s handle line is the Air Flow. Now in it’s third season deBeer brings this handle to the market in their tried and true team colors. Regardless of model deBeer always seems to use a good range of team focused colors to allow the player to build a stick that matches their school or club team colors. deBeer has never been a company to use let’s say fu fu graphics. Their colors are straight forward.

The Air Flow handle is a women’s diameter handle that will require an adapter when custom building with the head of your choice. The molded end cap allows for smooth bottom hand transition and a positive controlling feel. The holes in the bottom of the handle definitely reduce weight but will also help to keep hands dry during play. Overall a good handle to play with and contrary to what I have heard I have never spoken to a player who got her fingernails or fingers caught in the air flow holes.

The new release FLEX handle for the deBeer women’s line this year will be the go to for any players looking for a super strong composite handle. The FLEX is a carbon composite handle that is made for deBeer by True Temper. True Temper is the company that built one of the best women’s handles ever in what used to be the STX Afterburner. The FLEX is a bombproof make up that is neither a men’s diameter or a women’s diameter handle. It falls right in the middle making it a great handle for defenders looking to deliver good hard checks. And as an attackers handle made to withstand those checks. The FLEX is going to be a very stiff handle which means no lost energy when shooting or passing. Check out Longstreth.com as they will be offering the FLEX in a one off Purple color as well as the stock Black and Silver.

Mike Rinier, 9 Year Lacrosse coach for both men’s and women’s. Enjoys coaching Goalies the most. Mike enjoys participating in downhill mountain biking, road bike and cyclocross as well as distance trail hiking and finding ways to bring the lacrosse style to sports that may not be used to it. Custom stringer for Longstreth Women’s Sporting Goods. He will bring you the latest and greatest in what is new in the women’s game for both equipment and shoes. Hopefully we can cue you in to some cool stuff on the way.

Lacrosse Playground

In 2009, Adam O’Neill, Harry Alford and Thomas Alford launched Lacrosse Playground as the preeminent site for lacrosse gearheads. For years Lacrosse Playground provided lacrosse fans with tutorials and tips on how to string a lacrosse head, up-close looks at the gear the top players used and sneak peeks at equipment and uniforms before they were released. More than 10 years and millions of visits later, Lacrosse Playground has relaunched with a focus on storytelling. Our mission is to provide comprehensive coverage of the latest lacrosse news, share insights into the sports betting and fantasy lacrosse world and showcase the lifestyles and personalities of the sport of lacrosse through articles, videos and podcasts.

DEBEER AIR FLOW BLACK WOMEN’S LACROSSE SHAFT – NEW

Pricing & History

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DeBeer Air Flow Women’s Lacrosse Shaft *** Color: Black *** Features: Lightweight Composite Shaft! Made Of Carbon/Fiberglass Composite For Strength! Small Size Octagonal Shape! Soft Feel Paint! Integrated T. O.S. Transfer Offset System Bend ! Air Holes In Lower Grip Section Improve Control! Lowest Price On The Internet!!! This shaft is Only Compatible With DeBeer Transfer Offset System (T.O.S.) Designed Heads! *** Please See Our Shipping Calculator Below *** Shipping Rate Calculator Enter your ZIP/POSTAL code: Select your COUNTRY : United States Canada United Kingdom Albania Algeria American Samoa Andorra Angola Anguilla Argentina Armenia Aruba Australia Austria Azerbaijan Republic Bahrain Bangladesh Barbados Belarus Belgium Belize Bermuda Bolivia Bosnia and Herzegovina Botswana Brazil Brunei Darussalam Bulgaria Cayman Islands Chile China Colombia Costa Rica Croatia, Democratic Republic of the Cyprus Czech Republic Denmark Dominica Dominican Republic Ecuador Egypt El Salvador Estonia Ethiopia Fiji Finland France French Polynesia Georgia Germany Gibraltar Greece Greenland Guadeloupe Guam Guatemala Honduras Hong Kong Hungary Iceland India Indonesia Ireland Israel Italy Jamaica Japan Jordan Kazakhstan Kenya Coast Republic South Korea Kuwait Kyrgyzstan Laos Latvia Lebanon Liechtenstein Lithuania Luxembourg Macau Macedonia Madagascar

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Airflow in the housing. What do you need to know? — i2HARD

In today’s material, we will analyze the important topic of airflow in the case. Let’s compare fans of different types and, most importantly, determine how best to place the liquid cooling radiator: in front or on top. The classic way to improve cooling will also be measured – removing the side wall.

Contents:

• Test stand and test procedure
• Checking stock values ​​
• Installation of additional fans
• Compare F- and P-series fans
• Where to put AIO?
• Installing the RTX 3090 graphics card
• Making the front wall “blind”

Test stand and test method

Naturally, we must start with the case. Unfortunately, it is not possible to cover all their diversity, but we will take a sort of collection of the most popular ideas in designing a case for reasonable money – Deepcool Matrexx 55 Mesh with a mesh in front. In addition, it has four fans in the kit and it is possible to install AIO or additional fans on top. The ideal candidate.

In addition, we stocked up with AIO 240 mm, a budget air cooler and two packs of Arctic fans of various types, beloved by many – F12 and P12.

So, let’s place a test assembly with a Ryzen 9 5950X processor in the case. Calm down – we are not going to overclock it or somehow substitute a modest cooling tower. But we will not leave the processor in stock either, changing frequencies and voltages will ruin the entire test. Therefore, we fix the frequency value at 4500 MHz for all cores, and set the voltage so that it is slightly less than 1.2 V in the load. We get a heat dissipation level close to the stock level of about 150 W in the Aida64 stress test with only the CPU ticked. In general, it doesn’t matter how to create a load for today’s measurements, the main thing is repeatability.

There will be two video cards: the Radeon RX6800 with a stock power consumption of 250 W for the entire card and the GeForce RTX 3090 with the ability to heat the air much more efficiently – the limit can be expanded to 480 W if desired.

We also fix the parameters of video cards and the rotation speed of their coolers as far as possible, and for the 3090 we will choose the option with sparing 380-390 W in the Heaven benchmark. It is he who will warm up the video cards, the uniformity of the process will be ensured by a pause in the same scene.

Almost done. We will inform you that the memory works in xmp without additional settings, the voltage is 1.45 V. All fans, except for video cards, will be fixed at around 1000 rpm. A special controller will help us with this, it will impartially monitor the rotation speed and temperatures.

Full parts list

• CPU: AMD Ryzen 9 5950X
• Motherboard: ASUS ROG Crosshair VIII Formula
• RAM: G.SKILL F4-3600C14D-32GTESA 2x16GB
• Graphics Card #1: ASUS GeForce RTX 3090 ROG STRIX
• Graphics Card #2: AMD Radeon RX 6800
• Cooler #1: Deepcool Gammaxx 400EX
• Cooler #2: Deepcool Gammaxx L240T 900 10
• Fans #1: ARCTIC P12 Value pack 5pc (ACFAN00135A)
• Fans #2: ARCTIC F12 Value pack Black (5pc) ACFAN00248A
• Chassis: Deepcool Matrexx 55 MESH ADD-RGB 4F
• NVMe NVMe ADATA XPG SX8200 Pro 512GB
• NVMe sata SSD Kingston KC600 1TB .
• Power supply: Cooler Master V850

The controlled parameters in comparison will be: processor temperature by TCtl / Tdie sensor, temperature of the video card cores (excluding hotspot and memory, this is still more likely for specific performances, but the theoretical component is important for us) . For RAM, we take the first bar from the list in monitoring into account, the second will almost always be a little hotter, but all the important monitoring data will be available to the curious.

Completing this carnival of numbers are two thermal sensors, which are secured by special means at strategic points on the case. The first one is in the upper corner above the motherboard, it will indirectly show the state of the air near the power circuits and hint at the efficiency of blowing out of the system unit. We place the second sensor under the video card in order to have some approximate data on the temperature of the air entering the video accelerator cooling system.

The hardest part is controlling the room temperature during this turbulent spring time, the target is 22 degrees and it has almost always been accurate according to the Chinese thermometer.

Checking the stock values ​​

Phew, we didn’t forget to tell you anything in the introduction, let’s start capturing the initial data. The fans in the case are complete, on the Gammax 400 EX processor, it also has a fixed speed – 1000. Video card – RX 6800.

We run tests, the processor temperature cheerfully exceeds 70 degrees, the video card does not lag behind.

But the starting spurt is not the most interesting, we continue to observe. After 15 minutes, the temperatures almost stabilized, we are waiting for the same amount. A half-hour test shows values ​​​​very close to the final ones, let’s stop there, otherwise everything that was planned simply cannot be implemented in a reasonable time.

To be honest, the results are not very inspiring. The total power consumption of the system during the test is about 470 watts. No, the temperatures of the processor and video card are quite normal, but on the memory, the sensor outside the chip is already almost 50, i.e. under such conditions, you can forget about serious overclocking and high performance of the memory subsystem, it is better to lower the voltage to 1.35-1.4 and try your luck like that.

Well, we have tools in our hands to improve cooling. First of all, this is a proven method for years of removing the side wall, in this case – glass. The temperature immediately begins to respond with positive dynamics. After fifteen minutes, all the values, one might say, have stabilized, but for the experiment we will let the system work for another 15 minutes. It can be seen that it was possible not to wait so long, the difference is insignificant, the data is more accurate, but even 15 minutes is enough for some conclusions.

So, this upgrade of the cooling system had the best effect on the processor. Its cores have become colder by almost 9 degrees, the video card has lost 3 degrees, the memory – 4. I would like more, but we will consider this a success. It is quite logical that the temperature in the upper corner of the case also dropped significantly.

Installing additional fans

Next experiment: add two Arctic F12 fans to the top of the case to blow out and close the lid. We will turn on in turn, first one and in the next measurement – the second.

With one additional fan, we can notice a significant decrease in air temperature in the upper part of the case, which is very logical – almost 6 degrees of gain. As for the rest of the components, the changes are within the limits of fluctuations in the microclimate of the room, but the processor cores deviated in the other direction, which means we can hope that the symbolic improvement is not an accident.

We continue the experiment by turning on the second fan, and now we do not register any significant changes. Temperatures rose a little on everything, but this was due to the duration of the test, there was no pause between sessions with the top fans. We can conclude that the second fan on top does not make a significant contribution with this configuration of the cooling system and with a dust filter on top.

It’s time to move on to the next step. We change all the complete fans to Arctic F12, leaving only one on top. In total, we get 5 case turntables. We fix all speeds again at 1000 rpm and measure the indicators after half an hour of the test.

Compare with a similar configuration of stock fans and one extra on top. F, as they say for Flow, and in the name of the fans it is not in vain. The decrease in temperatures affected all measured values, primarily due to the improvement in the flow of fresh air through the front panel. That is why the RAM won the most, the decrease in its temperature exceeded 4 degrees, while for the processor the change was about three.

We do not go far from the stand, remove the glass and measure the difference with stock fans. As expected, there is almost none of it, the processor cooler and the video card cooling system mainly get air from the side opening, and memory without direct airflow can only rely on front wall fans. And here there are improvements, more than 2 degrees, the final 42 degrees already leave hope for some kind of RAM setting.

Comparing F- and P-series fans

Naturally, it would be very interesting to know the differences between the F-series of fans, which are designed for airflow, and the P-series, which, on the contrary, are designed for increased static pressure and are good for blowing radiators. We change, run tests, we are convinced of the importance of dividing fans by task. P12 are great fans, but not like case fans. The loss in all values ​​is significant, the temperatures are even worse than those pre-installed in the case initially.

The saddest thing is to see memory temperatures above 50 degrees Celsius again.

With the case open, CPU and GPU temperatures come to the same values ​​as with any fans before. The memory is hotter than with F turntables by 3 degrees.

We can draw an intermediate conclusion: you should choose fans not only according to the backlighting capabilities, but also based on their application, for radiators look at the values ​​of the developed pressure, for the case – at the generated air flow. Many manufacturers make it easy and create specialized lines of fans, such as the aforementioned Arctic. F – for the case, P – for radiators.

Where to put AIO?

AIO time has come. Common sense says that installing it in front, or rather on blowing, will greatly help the processor, but will dramatically worsen the position of the memory and video card. At the same time, the radiator will be heated from above (or blown out) by the warm air of the case, which increases the temperature of the processor. Both of these options are not ideal. It’s time to figure out which chair is worse.

We install the radiator in front for blowing, we fix its fans at 1000 rpm, we place the released case fan on top, because we can. Compare with an air cooler and a case equipped with dedicated F12 fans. Yes, the Gammax 400ex is certainly good and really surprises with its performance, but now we immediately get a 10-degree gain in terms of the processor. The video card and the upper corner also lose, but only by a degree. but the memory receives a sensitive blow to the sensor. Again about 50 degrees – it’s hard to put up with it.

Continuing the open wall experiment. The difference with air cooling in the same conditions for the processor is reduced to 6 degrees. But worst of all is the RAM. The case has lost structured flows and now a heat bag is created around the slats, hence the temperatures are 9 degrees worse than with air. The video card also catches a little warm air from the radiator. But it’s too early to draw conclusions, in front of the upper radiator.

What do we have after half an hour of tests? But nothing good: the processor temperature, as expected, crept up – more than seven degrees difference with the front radiator and only three degrees with the cooler. At the same time, the gain in temperatures for the video card and, what is most offensive, for the RAM, is minimal (1-2 degrees). It’s kind of a shame.

The situation is slightly better with the open case, the main achievement is the decrease in the memory temperature compared to the front-mounted heatsink.

It turns out that those who said that dropsy must be placed in front were right? Yes and no! Yes, in the sense that if your case is exactly like that and equipped with the same type of dust filters, then the result will be similar. Attentive readers must have noticed that when the heatsink was placed on the top, the temperature rise of the processor was somehow disproportionately large. This is due to a dust filter with a small cell, it severely cuts the air flow and literally stifles the possibilities of everything that tries to exchange air through the filter.

We bring the experiment to a level that does not depend on the size of the holes in the dust filters and the degree of perforation of the front panel. We remove both of these unknowns and get the following data.

The processor cores have become colder by almost 8 degrees. This is when compared with the same location of the radiator, but with dust filters installed. The temperature of the RAM dropped by 6 degrees, the changes in the video card are not so significant.

But these numbers cannot be directly compared with the values ​​obtained earlier for the front radiator, there were also filters. We rebuild the stand, the radiator is forward. Compare with the top AIO also without filters. We get the processor temperature lower, but only by 3 degrees, but the RAM feels much worse – plus 6 degrees. The zone in the upper corner also suffers – also plus 6 degrees, which means that the load on the VRM of the motherboard increases, and the saddest thing is that the chances of a good RAM setting decrease noticeably.

And now we can draw the following conclusion: if you do not intentionally interfere with blowing through the upper part of the case with non-optimal dust filters, then installing an AIO with a top-mounted blower will be preferable. The temperature of the video card in these two configurations does not differ much, but the climate inside the case, and hence the temperature of the memory and power circuits of the motherboard, will be much worse with the front blowing radiator. Yes, with a front-facing heatsink, the processor will cool a little more efficiently, but it’s not worth it.

If the issue of memory settings is not an issue, and the motherboard is chosen with a power reserve, which is not uncommon today, then the placement of the heatsink is absolutely not important. However, like the type of radiators, the main thing is that the appearance or the backlighting capabilities suit you.

Installing RTX 3090 graphics card

This could be done, but we have a hotter graphics card. How are things going there if you have such a jewel installed in your case?

Let’s start, as before with Radeon, with air cooling, but from the point when all case fans were replaced with F12.

The total consumption of the system unit from the socket exceeded 620 W, the video card itself confidently consumes more than 380 W, but the chip temperature is lower than that of the Radeon. Why did we call the 3090 hot? Yes, the temperature also depends on the higher fan speed, but in general, calling a video card hot or not is based on the amount of heat given off to it in the case. Look at the temperature of the processor, the heating from the 3090 added 17 degrees to it compared to the RX 6800 (all other things being equal). The RAM is also warmed up – the difference is almost 8 degrees. It is safe to say that in order to draw more than 600 watts from an air-cooled case, it is worth considering a very efficient air exchange with the outside world.

Let’s not lose heart and use the old-fashioned method – remove the glass. Access to cool outside air affects the processor strictly positively – immediately minus 15 degrees. It’s still 8 degrees hotter than the same configuration, but with only 250 watts of graphics card. But here you should not forget about blowing hot air directly to the fans of our Gammax and as a keepsake. The slats of the operational became colder by almost 6 degrees due to the opening of the wall. Yes, all measured temperatures have become much better.

We leave the dust filters in their original places, do not touch the front wall, we take measurements with the front and top location of the AIO radiator. The result is absolutely predictable and similar to the one obtained earlier on the RX6800, the difference in processor temperatures even increased due to the hotter video card. With filters and difficult blowing upwards, the front radiator placement is again the most preferable option. Memory in all variants has a temperature close to 52 degrees, which is absolutely terrible.

Now a cleaner experiment: remove the front panel and the dust filter on top. We carry out measurements with two options for placing the radiator, compare. The processor gets about 6 degrees of temperature gain with the front AIO, but at the same time, in this configuration, the memory is 5 degrees hotter, the zone in the upper corner also warms up by 5 degrees more. At the same time, under the video card, the difference is again small – about two degrees.

Comparing all the pros and cons, we can recommend getting rid of unnecessary resistance in the form of blow filters and, if you are interested in overclocking the memory, place the AIO heatsink on top.

Although there is another option – put a special fan in front of the memory and force it to cool, then the conclusions will no longer be so obvious.

And according to all the results of this long-term study, we can say that for top-end hardware, the possibilities of air cooling and even factory AIO liquid cooling kits are limited and very much depend on case ventilation. Confident air exchange with the outside world and not very high room temperatures are almost the only way to avoid custom liquid cooling. Another option would be to leave everything without overclocking and use the components, as they say, “out of the box”. As practice shows, there will be no overheating. Or not?

Making the front wall “blind”

The test used a case with a mesh front panel, but there are narrow slots on the sides for air intake. As well as in models with blank front walls. Let’s try to imitate such a case: we glue the mesh, now the fans in the front have only one, or rather two ways to draw air into the case – on the left and on the right.

AIO heatsink on top, dust filter also in place. To endure half an hour was not allowed by natural pity for the helpless. If 3090 still somehow copes and even after 10 minutes of the test keeps the temperature below 80 degrees, then the processor confidently went over a hundred, the memory is approaching 60. This is not a computer, but an oven.

Yes, it would be a little better without a dust filter on top, but the reality is that with a blank wall, the airflow even with the fans on is extremely low, in fact, close to the case if these fans were not there at all.

Articles about hardware and gadgets – I2HARD – i2HARD

DDR5 Benchmark: Ranks or Frequency?

Testing on the example of DDR5 1×32, 2×16, 2×32 and 4×16 memory dies. Stock and overclocked.

Undervolting for NVIDIA graphics cards. How to do and where to start?

Exploring the benefits and undervolting NVIDIA video cards.

Learning MSI Afterburner. A program for monitoring the system and setting up a video card.

Detailed review of MSI Afterburner software: functionality, features, features

How to test the processor and RAM?

We study software for the correct stress test of the processor and RAM

Which GeForce RTX 4090 graphics card should I buy?

The choice of NVIDIA GeForce RTX 4090 among the presented video cards.

How do I choose the right solid state drive (SSD)?

Consider the features of drives and what you should pay attention to when choosing them.

Exploring AMD Ryzen 7000: Zen 4 and AM5 9 Architecture0005

All available information about the AMD Ryzen 7000 at the time the processors were released.

How to choose a gaming/gaming chair?

Choosing the right gaming chair: technology, upholstery materials, padding and ergonomics.

FSR vs DLSS. – Compare upscales from AMD and NVIDIA

From DLSS we make AMD FSR.

We study fans. What do you need to know to make the right choice?

Considering fans and their features

DDR5 Memory Overclocking Guide

We are setting up a new generation of RAM for a productive mode of operation.

Understanding “mutant” and “engineer” processors, their features and preparation for work

Is there life in the budget segment with Ali?

How and how to cool the VRM on the motherboard?

Based on ASRock H610M-HDV/M.2 and Gigabyte H610M S2H DDR4

Which graphics card should I buy? June – July 2022

Graphics card prices are heading down, so it’s time to figure out what to buy this summer.

Anatomy. What is a video card made of?

Understanding the components of a video card.

AMD Radeon Super Resolution (RSR). What do you need to know?

What is RSR, how it works and how it improves performance.

Which motherboard to buy for Intel Core 12 generation?

Choice of motherboard on socket LGA1700 on chipsets b660, z690 for Intel 12th generation.

How to choose computer speakers – myths and reality

Let’s analyze the key points of choosing speakers for a personal computer.