Once you are registered in the Android Developer Program, have Android Studio installed, and your Buildbox game is completed, it’s time to export. This will create a set of files on your computer to be used with Android Studio to be put onto the Google Play Store. In the popup, fill out Save As and select the file location on your computer. In the Menu Bar, go to File > Export > Android. Now that all the important information is filled in, it is time to export. You only have to fill out Leaderboard ID, Review Link, Share Message, License Key, and Game Services ID if they apply. Make sure you fill out Bundle ID and Name On Device as they are required for submission. For Application Store, select Google Play Store. For Use Encryption, you may check the box to encrypt your game file to prevent other developers from stealing or remaking your game. ![]() Make sure you import an Icon Image and Full Game Name. The App info you need to fill out is under the General tab. To get to the Project Settings Page, click on the gear in the top right of Buildbox 2. To start, open your game in Buildbox 2.īefore exporting, you will need to fill out some app info on the Project Settings page. ![]() ![]() If you are using Buildbox 3, then please jump to Step 2b. If you are using Buildbox 2, then please use Step 2a. One more tool you are going to need is Android Studio, which is the tool that professional Android Developers use to design, code, test, and debug applications for Android devices. Registering for a Google Play Developer Account gives you access to the Google Play Console, which is where you will go to submit and update your game and manage the analytics and data for it. You will have to sign into your Google account, accept some terms of service, pay a one-time $25 registration fee, and complete your account details. To do this go to the Google Play Developer Account signup page to start your enrollment. In order to submit your game to the Google Play Store, you must first register for a Google Play Developer Account. This tutorial will assume that your Buildbox game is already polished, bug free, and ready for the world to see. This tutorial will take you through the final steps of taking your Buildbox game and putting it onto the Google Play Store. Better quantification of powder characteristics aids determination of suitability for end uses.Step 1: Register for a Google Play Developer Account ![]() Altogether, these methods permit direct comparisons among powder metal samples. (3) For critical applications, the heavy liquid separation (HLS) method physically extracts low-density contaminants from a sample of powder metal down to part-per-billion detection limits to allow direct examination of contaminants and enhance identification and prevention of their sources. (2) Energy-dispersive spectroscopy (EDS) can be included, providing insights into variations within a batch of powder, as well as contaminant compositions. (1) Computer-controlled scanning electron microscopy (CCSEM) provides quantitative size and shape parameters, as well as fine surface details from individual images on a particle-by-particle basis in large populations of powder. This article describes three methods to rapidly and quantifiably characterize powder feedstock. Their presence may decrease fatigue life by increasing the likelihood of fatigue crack initiation. Contaminants contained within a batch of powder can be physically built into an additive part when they are incorporated into the melt pool, and they can remain as discrete particulates or non-fused interfaces that act as stress concentrators. Contaminants may be introduced during powder manufacture (e.g., ceramic insulation fragments from gas atomization equipment), handling (building insulation, talc) or possibly during the build process itself. This is true for virgin, used and blended powders. For high-performance applications such as aerospace, medical, power generation and military, it becomes important to identify critical additional factors: the types, numbers and sizes of particulate contaminants that may be present in the powder. Particle size distribution (PSD) and shape factors influence flowability as well as the thickness and uniformity of each powder layer in the build box. The quality of powder feedstock for additive manufacturing (AM) metal powder bed fusion methods can significantly affect the quality of parts built from it.
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